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linse:v0.20.1-7

63 Commits
flame ... paul

Author SHA1 Message Date
l_samenv
4c71e44cd2 changed sign of temperature offset adjustment of d and F in razorbill 2024-07-18 15:41:35 +02:00
l_samenv
5d0c980e22 added razorbill.py frappy file 2024-07-18 15:39:18 +02:00
l_samenv
f1bbdec2b3 post experiment commit, code is operational 2024-07-16 09:49:14 +02:00
l_samenv
2bdf9c6542 ACM1219: add checkHWIdent 
waiting 0.5 sec before the first communication helps to start
properly

+ added usb dev names for box
 2024-07-03 14:09:13 +02:00
Paul Neves
1fba0fad42 ACM1219: remove wait_before 2024-07-03 11:35:19 +02:00
Paul Neves
0a5de1ebc2 Updated the ACM1219 driver 2024-07-02 15:54:25 +02:00
Paul Neves
92c53ad3ba added GNU license 2024-06-17 20:20:54 +02:00
Paul Neves
802d4e0c99 made displacement and force calibrations writable and updated capacitance channel descriptions 2024-06-17 20:19:33 +02:00
Paul Neves
ee040ce98a added RP100, ACM1219, and dummy classes, and razorbillUC220T config file 2024-06-17 20:11:36 +02:00
Markus Zolliker
b1f9c74269 frappy.client.readParameter: handle connection errors correctly 
update cache in case of connection errors, as they are not handled
in the rx thread

Change-Id: Icf3377020ec314fcef2982a4e6dc64356f787273
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33744
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-05-28 17:29:55 +02:00
Markus Zolliker
63210c9924 SecopClient.online must be True while activating 
as callbacks trigger by updates while activating may check for
online state

+ remove unused imports

Change-Id: I37df839abf6b7225389b803347234a3d0bc8d799
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33745
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
 2024-05-28 17:29:55 +02:00
Jenkins system
47c5e297d4 [deb] Release v0.19.0 2024-05-28 17:29:55 +02:00
Georg Brandl
6cd83eabcc fix LimitsType to be actually used and validated 
Change-Id: Id0f67e91f4ff57d4c29c33960e736c8c3ae77209
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33683
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
 2024-05-28 17:29:37 +02:00
Jens Krüger
caaefec6db Fix abslimits reading from entangle device 
Fixes: #4864
Related: #4866

Change-Id: I393a35784766c0e09367a90debfc8b59b290626e
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33672
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
 2024-05-28 17:29:37 +02:00
Georg Brandl
6dfb3bcee8 add config for the Entangle simulation server 
Change-Id: I9e7564707fc98d3b5dc3182d7837b222aefef582
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33692
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Georg Brandl <g.brandl@fz-juelich.de>
 2024-05-28 17:29:37 +02:00
l_samenv
d492f7326f frappy_psi.parmod: make async 2024-05-07 10:25:02 +02:00
l_samenv
7929c37027 frappy_psi.sea: better timeout behaviour 
timeout parameter not only for requests but also for connects
this might avoid blocking situations
 2024-05-07 10:23:21 +02:00
zebra
76349e38f9 add cfg files from zebra: Ma10heat, ma10high_t, ma6_sampleheat 2024-05-03 08:25:50 +02:00
Markus Zolliker
647d87f70f frappy.client: avoid shutdown callback sent twice 
in case th rx thread crashes, the shutdown callback is called twice
-> improve cleanup code in __rxthread

Change-Id: I0d20aa4304d94b17565b018ad8528d61bbbcbc83
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33614
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-05-03 08:14:10 +02:00
tasp
798c268eb4 hvolt_long_cfg.py 2024-05-02 16:36:43 +02:00
eiger
9467f5233c increase mercury timeout 
+ set try_cnt for IPS to 0 (do no longer know why)
 2024-05-02 14:54:52 +02:00
eiger
a7ff73a34d set comlog automatically on 2024-05-02 14:54:52 +02:00
dmc
bf018e74ba add backlash to MA10 motor 2024-05-02 14:47:36 +02:00
dmc
801f80af7f add cfg files for gas stick 2024-05-02 14:47:36 +02:00
sans
26fa5371e9 add piezo/thermalc from sans 2024-05-02 13:06:40 +02:00
sans
2bad1ffee5 update haake/ma7/ma11/ovenstick from sans 2024-05-02 11:47:33 +02:00
Markus Zolliker
b2b77c70ea SecopClient.__del__ must not call callbacks 
otherwise a nasty deadlock might happen in NICOS

Change-Id: Ie1a333979b77683ce35683aede042ce86159fe65
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33583
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-05-02 08:40:32 +02:00
Markus Zolliker
192cde605e frappy.client.SecopClient: add the option to use no logging at all 
using a dummy NullLogger

Change-Id: I1f12c7307d3d8e37243488b8a11c6abcf087af86
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33582
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-05-02 08:40:32 +02:00
Markus Zolliker
c7d23e40e9 frappy.client.interactive: improve logging and error handling 
- redesign logging, using python logging
- stop watching when an erro happens during update

Change-Id: Ibe96569ecc45df429b571232374c451de3f82f1f
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33431
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-05-02 08:38:49 +02:00
Markus Zolliker
2561e82086 frappy.client: improve error handling more 
- implement a 'handleError' callback
- SecopClient.handleError is registered as a callback and by default
  logs errors up to a limited number of times
- the cache is customized to return an item indicating an undefined value,
  helping to avoid follow up errors.
+ frappy.errors: cosmetic fix
+ frappy.client: cosmetic changes

Change-Id: I4614e1d27c7aea3a1a722176c6be55f8563597cd
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33429
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-05-02 08:38:49 +02:00
focus
55c96ffe4f add FW cfg 2024-04-30 09:24:07 +02:00
Markus Zolliker
17a44ef42a fixed dilsc, fist try before tests 
Change-Id: Iaac5f07c27879c7c17be2e25defde19e9ddd1566
 2024-04-29 12:18:12 +02:00
Alexander Zaft
fcdee8e3ec gui: sort qt imports 
Change-Id: Id8dfdd7b07bff6e337eb71a436dd51762f9b5fa7
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33389
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
 2024-04-08 17:01:20 +02:00
Markus Zolliker
dddf74df9e frappy.client: catch errors on callbacks 
buggy updates or errors in callbacks are now converted into
error updates, buggy error updates are skipped.

-> the receive thread should no longer crash

Change-Id: I97e3999db73e64f73dfbc380fac3d7685b6ca31c
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33386
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-04-08 17:01:03 +02:00
Alexander Zaft
ac251ea515 test: add uri attach test 
Change-Id: I8a021c53c9987ed03ce31c8481f73573b943d1f3
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33417
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
 2024-04-08 17:01:03 +02:00
Alexander Zaft
9e4f9b7b95 gui: more specialized input widgets 
Change-Id: I8b768b2069ae28a58d540165bd95f31ad7e984e0
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33390
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
 2024-04-08 17:01:03 +02:00
Markus Zolliker
4f65ae7e46 frappy.client: cleanup properly after a reply timeout 
when a reply to a request is not received within 10 s a timeout
error is raised, but any further requests with the same identifier
will be blocked - fix this

Change-Id: Id2fbc8bb6e6ecfd54bba1fa57b62e626e49b54c8
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33385
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-04-08 17:01:03 +02:00
Alexander Zaft
a73b7e7d88 gui: catch invalid inputs 
Change-Id: Ie0525e4ef9a94085da811e7eaa2e0b7430bade95
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33388
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
 2024-04-08 17:01:03 +02:00
Alexander Zaft
76a78871b4 core: cover errors in handler setup() 
Change-Id: I0bb2f07e26717205c013dfedec6e1beca2947d17
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33239
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
 2024-04-08 17:00:24 +02:00
Alexander Zaft
118e22ee44 core: introduce common handler class 
- make RequestHanlder based on socketserver.BaserequestHandler
- split handle() into subfunctions
- rework TCPRequestHandler

Change-Id: I62452e21c03b9cb9937673ce9c8663765798f863
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/32984
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
 2024-04-08 17:00:24 +02:00
Georg Brandl
c63f98f3cb dispatcher: consistent handling of missing timestamps 
Like in `read` replies (line 193), `update` now omits the timestamp
instead of returning {"t": 0}.

Change-Id: Iaee0fccae81040cdd6075b0e4a8600c032aec03d
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33382
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
 2024-04-08 17:00:09 +02:00
Alexander Zaft
6514a1b2ee core: add websocket interface 
Change-Id: Ic62abeef6fb73f4a1b3d29f9225ba164de9e3e93
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33240
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
 2024-04-08 17:00:09 +02:00
Markus Zolliker
aeec940659 follow up fix: handler export=True correctly 
this seems to be broken in change 33266

Change-Id: I4da78f297976daeac0a0709b9c86e6e28fc122bf
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33268
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-04-08 17:00:09 +02:00
Markus Zolliker
4571af8534 follow up fix for change 33168 
triggerPoll must be set on attached io

Change-Id: If3fa1016efa6047371380790f60db246d87b3628
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33269
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-04-08 16:59:19 +02:00
l_samenv
adfb561308 add cetoni pump for flowsas project 2024-04-03 11:31:38 +02:00
Markus Zolliker
70a31b5cae attocube: remove seperate pyanc350 python module 
- implement positioner as an io class
- proper shut down behaviour

Change-Id: If04176f779809fd5b08f586556cac668cf188479
 2024-03-28 10:12:18 +01:00
l_samenv
8ee97ade63 adjust cfg foe attocube to current example 2024-03-27 17:13:58 +01:00
Markus Zolliker
1715f95dd4 frappy_psi.attocube: add lock protection to hw access 
in order to avoid sporadic timeout problems

Change-Id: I36f67ae72b65e9c1f3179cae942b0a7d94584e55
 2024-03-27 17:08:24 +01:00
Markus Zolliker
db29776dd5 reworked attocube 
- step_mode: soft closed loop, stepwise, reading encoder after a delay
- calib_steps command to determine step size

Change-Id: I27bdffb4d564ac9c55a6473704ac2de6ad92bac8
 2024-03-25 16:47:13 +01:00
Markus Zolliker
a2905d9fbc improve attocube driver 
- driving in an extra thread, hoping not to miss end of travel
  status bits (does not work always)
- maxtry parameter for trying several times

TODO: move by step (in an other thread)
Change-Id: I89b51d1f6926f2fd26ec22d43aede377b5231583
 2024-03-22 14:38:23 +01:00
Markus Zolliker
16b826394f fixes for attocube 
Change-Id: Id5eeb749ba010fec59d1c2f8a3258ee34a47e246
 2024-03-20 16:59:04 +01:00
l_samenv
ea8570d422 wip: fix attocube 2024-03-20 16:12:03 +01:00
Markus Zolliker
1169e0cd09 improve sea interface 
Change-Id: I58fb4b10ef9466f90e4cd58b6c67bcfb11c493e3
 2024-03-08 15:59:16 +01:00
Markus Zolliker
7d02498b3d improve async behaviour of parmod.Driv 
Change-Id: I3889614a0deaba4ef13b86c6600b6f96bc502a39
 2024-03-08 15:58:17 +01:00
Markus Zolliker
694b121c01 fix more stop doc strings 
Change-Id: Id7ea0a6d0c959e980beee8fbea73932c701977d7
 2024-03-08 15:38:34 +01:00
Markus Zolliker
0f50de9a7f fix command doc string handling and change default stop doc string 
- fix inheritance of command description
- when no stop method is given, then the description should indicate
  that stop is a no-op -> add missing doc strings to stop methods
- add test to make sure stop command doc strings are given
  when implemented

Change-Id: If891359350e8dcdec39a706841d61d4f8ec8926f
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33266
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-03-08 15:34:08 +01:00
Markus Zolliker
b454f47a12 fix docstring in frappy.error.OutOfRangeError 
Change-Id: I006c061a5d88ac7c97808efd56faece927916e78
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33183
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-03-08 15:34:02 +01:00
Markus Zolliker
6e7be6b4c7 simplify callbacks 
on Module, use one single callback list 'paramsCallback' instead of
'valueCallbacks', 'errorCallbacks'. Redesign the mechanism to
avoid most of the closures.

Change-Id: Ie7f68f6bf97ab3f3cd961faa20b0e77730e5b37d
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33118
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
 2024-03-08 15:33:52 +01:00
Markus Zolliker
af28511403 fixes for proxy modules 
- for the case when the remote module name does not match,
  'read', 'change' and 'do' does not work
- a proxy to an IO class has enablePoll == False, but it needs
  a triggerPoll for modules relying on it to work
- a proxy on a communicator module has a status even when the
  remote does not - this needs 2 fixes

Change-Id: Icd44da4c2984f27ce7147dec633739f9176012ec
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33168
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-03-08 15:33:45 +01:00
Markus Zolliker
9d9d31693b bugfix in automatic creation if attached io 
srv.modules does no longer exist

Change-Id: Ibc52fe35f27ad110e60947702d97ee40f359b7c5
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33167
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-03-08 15:33:39 +01:00
Markus Zolliker
3a7fff713d move StructParam to frappy/extparams.py 
+ typos and fixes in doc strings

Change-Id: Ib3e9add84ce2a6fb5c33770cae7f2da3f5655506
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/33033
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-02-26 13:43:10 +01:00
Markus Zolliker
2acab33faa add FloatEnumParam 
for the use case where a parameter is a selection of discrete
float parameters

declaring a parameter as FloatEnumParam will create effectively
two parameters, one with datatype FloatRange and another with
datatype Enum, influencing each other automatically.

in a later change StructParam should be moved from
frappy/structparam.py to frappy/extparams.py

Change-Id: Ica3fd8dcaf6e9439e8178390f220dec15e52cc86
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/32975
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-02-26 13:43:10 +01:00
Markus Zolliker
8c589cc138 simulation: extra_params might be a list 
- still accept comma separated string
- remove legacy naming '.extra_params'

Change-Id: I497cf7722d0b39dd31c516383449a4cc4e7dcb7d
Reviewed-on: https://forge.frm2.tum.de/review/c/secop/frappy/+/32968
Tested-by: Jenkins Automated Tests <pedersen+jenkins@frm2.tum.de>
Reviewed-by: Alexander Zaft <a.zaft@fz-juelich.de>
Reviewed-by: Markus Zolliker <markus.zolliker@psi.ch>
 2024-02-26 13:43:10 +01:00
76 changed files with 5924 additions and 1103 deletions
Expand all files Collapse all files

19
cfg/attocube_cfg.py Normal file
View File

@ -0,0 +1,19 @@
Node('attocube_test.psi.ch',
'a single attocube axis',
interface='tcp://5000',
)
Mod('r',
'frappy_psi.attocube.Axis',
'ANRv220-F3-02882',
axis = 1,
value = Param(unit='deg'),
tolerance = 0.1,
target_min = 0,
target_max = 360,
steps_fwd = 45,
steps_bwd = 85,
step_mode = True,
# gear = 1.2,
)

231
cfg/dilsc_cfg.py Normal file
View File

@ -0,0 +1,231 @@
Node('cfg/dilsc1.cfg',
'triton test',
interface='5000',
name='dilsc1',
)
Mod('triton',
'frappy_psi.mercury.IO',
'connection to triton software',
uri='tcp://192.168.2.33:33576',
)
Mod('T_mix',
'frappy_psi.triton.TemperatureSensor',
'mix. chamber temperature',
slot='T8',
io='triton',
)
Mod('T_pt2head',
'frappy_psi.triton.TemperatureSensor',
'PTR2 head temperature',
slot='T1',
io='triton',
)
Mod('T_pt2plate',
'frappy_psi.triton.TemperatureSensor',
'PTR2 plate temperature',
slot='T2',
io='triton',
)
Mod('T_still',
'frappy_psi.triton.TemperatureSensor',
'still temperature',
slot='T3',
io='triton',
)
Mod('htr_still',
'frappy_psi.triton.HeaterOutput',
'still heater',
slot='H2',
io='triton',
)
Mod('T_coldpl',
'frappy_psi.triton.TemperatureSensor',
'cold plate temperature',
slot='T4',
io='triton',
)
Mod('T_mixcx',
'frappy_psi.triton.TemperatureSensor',
'mix. chamber cernox',
slot='T5',
io='triton',
)
Mod('T_pt1head',
'frappy_psi.triton.TemperatureSensor',
'PTR1 head temperature',
slot='T6',
io='triton',
)
Mod('T_pt1plate',
'frappy_psi.triton.TemperatureSensor',
'PTR1 plate temperature',
slot='T7',
io='triton',
)
Mod('T_pucksensor',
'frappy_psi.triton.TemperatureLoop',
'puck sensor temperature',
output_module='htr_pucksensor',
slot='TA',
io='triton',
)
Mod('htr_pucksensor',
'frappy_psi.triton.HeaterOutputWithRange',
'mix. chamber heater',
slot='H1,TA',
io='triton',
)
Mod('T_magnet',
'frappy_psi.triton.TemperatureSensor',
'magnet temperature',
slot='T13',
io='triton',
)
Mod('action',
'frappy_psi.triton.Action',
'higher level scripts',
io='triton',
slot='DR',
)
Mod('p_dump',
'frappy_psi.mercury.PressureSensor',
'dump pressure',
slot='P1',
io='triton',
)
Mod('p_cond',
'frappy_psi.mercury.PressureSensor',
'condenser pressure',
slot='P2',
io='triton',
)
Mod('p_still',
'frappy_psi.mercury.PressureSensor',
'still pressure',
slot='P3',
io='triton',
)
Mod('p_fore',
'frappy_psi.mercury.PressureSensor',
'pressure on the pump side',
slot='P5',
io='triton',
)
Mod('p_back',
'frappy_psi.mercury.PressureSensor',
'pressure on the back side of the pump',
slot='P4',
io='triton',
)
Mod('p_ovc',
'frappy_psi.mercury.PressureSensor',
'outer vacuum pressure',
slot='P6',
io='triton',
)
Mod('V1',
'frappy_psi.triton.Valve',
'valve V1',
slot='V1',
io='triton',
)
Mod('V2',
'frappy_psi.triton.Valve',
'valve V2',
slot='V2',
io='triton',
)
Mod('V4',
'frappy_psi.triton.Valve',
'valve V4',
slot='V4',
io='triton',
)
Mod('V5',
'frappy_psi.triton.Valve',
'valve V5',
slot='V5',
io='triton',
)
Mod('V9',
'frappy_psi.triton.Valve',
'valve V9',
slot='V9',
io='triton',
)
Mod('ips',
'frappy_psi.mercury.IO',
'IPS for magnet',
uri='192.168.127.254:3001',
)
Mod('mf',
'frappy_psi.dilsc.VectorField',
'vector field',
x='mfx',
y='mfy',
z='mfz',
sphere_radius=0.6,
cylinders=((0.23, 5.2), (0.45, 0.8)),
)
Mod('mfx',
'frappy_psi.ips_mercury.SimpleField',
'magnetic field, x-axis',
slot='GRPX',
io='ips',
tolerance=0.0001,
wait_stable_field=0.0,
nunits=2,
target=Param(max=0.6),
ramp=0.225,
)
Mod('mfy',
'frappy_psi.ips_mercury.SimpleField',
'magnetic field, y axis',
slot='GRPY',
io='ips',
tolerance=0.0001,
wait_stable_field=0.0,
nunits=2,
target=Param(max=0.6),
ramp=0.225,
)
Mod('mfz',
'frappy_psi.ips_mercury.Field',
'magnetic field, z-axis',
slot='GRPZ',
io='ips',
tolerance=0.0001,
target=Param(max=5.2),
mode='DRIVEN',
ramp=0.52,
)

52
cfg/flowsas_cfg.py Normal file
View File

@ -0,0 +1,52 @@
Node('flowsas.psi.ch',
'flowsas test motors',
'tcp://5000',
)
#Mod('mot_io',
# 'frappy_psi.phytron.PhytronIO',
# 'io for motor control',
# uri = 'serial:///dev/ttyUSB0',
# )
#Mod('hmot',
# 'frappy_psi.phytron.Motor',
# 'horizontal axis',
# axis = 'X',
# io = 'mot_io',
# encoder_mode= 'NO',
# )
#Mod('vmot',
# 'frappy_psi.phytron.Motor',
# 'vertical axis',
# axis = 'Y',
# io = 'mot_io',
# encoder_mode= 'NO',
# )
Mod('syr_io',
'frappy_psi.cetoni_pump.LabCannBus',
'Module for bus',
deviceconfig = "/home/l_samenv/frappy/cetoniSDK/CETONI_SDK_Raspi_64bit_v20220627/config/dual_pumps",
)
Mod('syr1',
'frappy_psi.cetoni_pump.SyringePump',
'First syringe pump',
io='syr_io',
pump_name = "Nemesys_S_1_Pump",
valve_name = "Nemesys_S_1_Valve",
inner_diameter_set = 10,
piston_stroke_set = 60,
)
Mod('syr2',
'frappy_psi.cetoni_pump.SyringePump',
'Second syringe pump',
io='syr_io',
pump_name = "Nemesys_S_2_Pump",
valve_name = "Nemesys_S_2_Valve",
inner_diameter_set = 1,
piston_stroke_set = 60,
)

2
cfg/generalConfig.cfg
View File

@ -3,3 +3,5 @@
logdir = ./log logdir = ./log
piddir = ./pid piddir = ./pid
confdir = ./cfg confdir = ./cfg
comlog = True

24
cfg/main/fw_cfg.py Normal file
View File

@ -0,0 +1,24 @@
Node('ft.config.sea.psi.ch',
'FW ILL furnace with W5 thermnocouple (1800 K), old power rack',
)
Mod('sea_main',
'frappy_psi.sea.SeaClient',
'main sea connection for fw.config',
config='fw.config',
service='main',
)
Mod('ts',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='tt',
rel_paths=['.', 'ts'],
)
Mod('t2',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='tt',
rel_paths=['t2'],
)

1
cfg/main/ma10_cfg.py
View File

@ -83,4 +83,5 @@ Mod('om',
target_min = -180, target_min = -180,
target_max = 360, target_max = 360,
encoder_mode='READ', encoder_mode='READ',
backlash=-1,
) )

101
cfg/main/ma10heat_cfg.py Normal file
View File

@ -0,0 +1,101 @@
Node('ma10.config.sea.psi.ch',
'10 Tesla vertical cryomagnet',
)
Mod('sea_main',
'frappy_psi.sea.SeaClient',
'main sea connection for ma10.config',
config='ma10heat.config',
service='main',
)
Mod('ts',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='tt',
rel_paths=['ts', 'set']
)
Mod('tm',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='tt',
rel_paths=['tm', 'setvti']
)
Mod('ts2',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='tt',
rel_paths=['ts_2']
)
Mod('cc',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='cc',
)
Mod('nv',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='nv',
)
Mod('hepump',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='hepump',
)
Mod('hemot',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='hemot',
)
Mod('mf',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='mf',
)
Mod('lev',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='lev',
)
Mod('ln2fill',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='ln2fill',
)
Mod('hefill',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='hefill',
)
Mod('table',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='table',
)
Mod('om_io',
'frappy_psi.phytron.PhytronIO',
'dom motor IO',
uri='ma10-ts.psi.ch:3004',
)
Mod('om',
'frappy_psi.phytron.Motor',
'stick rotation, typically used for omega',
io='om_io',
sign=-1,
target_min = -180,
target_max = 360,
encoder_mode='READ',
)

108
cfg/main/ma10high_t_cfg.py Normal file
View File

@ -0,0 +1,108 @@
Node('ma10.config.sea.psi.ch',
'10 Tesla vertical cryomagnet',
)
Mod('sea_main',
'frappy_psi.sea.SeaClient',
'main sea connection for ma10.config',
config='ma10high_t.config',
service='main',
)
Mod('th',
'frappy_psi.sea.SeaReadable',
'sample heater temperature',
io='sea_main',
sea_object='tt',
rel_paths=['ts', 'setsamp']
)
Mod('tm',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='tt',
rel_paths=['tm', 'set']
)
Mod('ts',
'frappy_psi.parmod.Converging',
'test for parmod',
unit='K',
read='th.value',
write='th.setsamp',
meaning=['temperature', 20],
settling_time=20,
tolerance=1,
)
Mod('ts2',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='tt',
rel_paths=['ts_2']
)
Mod('cc',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='cc',
)
Mod('nv',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='nv',
)
Mod('hepump',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='hepump',
)
Mod('hemot',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='hemot',
)
Mod('mf',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='mf',
)
Mod('lev',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='lev',
)
Mod('ln2fill',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='ln2fill',
)
Mod('hefill',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='hefill',
)
Mod('om_io',
'frappy_psi.phytron.PhytronIO',
'dom motor IO',
uri='ma10-ts.psi.ch:3004',
)
Mod('om',
'frappy_psi.phytron.Motor',
'stick rotation, typically used for omega',
io='om_io',
sign=-1,
target_min = -180,
target_max = 360,
encoder_mode='READ',
)

2
cfg/main/ma7_cfg.py
View File

@ -13,7 +13,7 @@ Mod('tt',
'frappy_psi.sea.SeaDrivable', '', 'frappy_psi.sea.SeaDrivable', '',
io='sea_main', io='sea_main',
sea_object='tt', sea_object='tt',
rel_paths=['.', 'tm'], rel_paths=['tm', 'set', 'dblctrl'],
) )
Mod('cc', Mod('cc',

107
cfg/main/ma7_piezo_cfg.py Normal file
View File

@ -0,0 +1,107 @@
Node('ma7.config.sea.psi.ch',
'6.8 Tesla horizontal cryomagnet',
)
Mod('sea_main',
'frappy_psi.sea.SeaClient',
'main sea connection for ma7.config',
config='ma7_piezo.config',
service='main',
)
Mod('tt',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='tt',
rel_paths=['tm', 'set', 'dblctrl', 'voltage'],
extra_modules=['manualpower'],
)
Mod('cc',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='cc',
)
Mod('nv',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='nv',
)
Mod('hefill',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='hefill',
)
Mod('hepump',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='hepump',
)
Mod('hemot',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='hemot',
)
Mod('ln2fill',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='ln2fill',
)
Mod('mf',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='mf',
value=Param(unit='T'),
)
Mod('lev',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='lev',
)
Mod('tcoil1',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='tcoil',
rel_paths=['ta'],
)
Mod('tcoil2',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='tcoil',
rel_paths=['tb'],
)
Mod('table',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='table',
)
Mod('stick_io',
'frappy_psi.phytron.PhytronIO',
'dom motor IO',
uri='ma7-ts.psi.ch:3007',
)
Mod('stickrot',
'frappy_psi.phytron.Motor',
'stick rotation, typically not used as omega',
io='stick_io',
encoder_mode='CHECK',
)
Mod('V',
'frappy_psi.sea.SeaWritable',
'voltage',
io='sea_main',
single_module='tt.manualpower',
)

4
cfg/main/ma7_sampleheat_cfg.py
View File

@ -36,8 +36,8 @@ Mod('ts',
'frappy_psi.parmod.Converging', 'frappy_psi.parmod.Converging',
'test for parmod', 'test for parmod',
unit='K', unit='K',
read='th.value', value_param='th.value',
write='th.setsamp', target_param='th.setsamp',
meaning=['temperature', 20], meaning=['temperature', 20],
settling_time=20, settling_time=20,
tolerance=1, tolerance=1,

128
cfg/main/ma7_thermalc_cfg.py Normal file
View File

@ -0,0 +1,128 @@
Node('ma7_thermalc.config.sea.psi.ch',
'''6.8 Tesla horizontal cryomagnet for thrermalcond''',
)
Mod('sea_main',
'frappy_psi.sea.SeaClient',
'main sea connection for ma7_thermalc.config',
config = 'ma7_thermalc.config',
service = 'main',
)
#Mod('tt',
# 'frappy_psi.sea.SeaDrivable', '',
# io='sea_main',
# sea_object='tt',
# rel_paths=['.', 'tm'],
#)
Mod('tt',
'frappy_psi.sea.SeaDrivable', '',
io='sea_main',
sea_object='tt',
rel_paths=['tm', 'set'],
)
Mod('th',
'frappy_psi.sea.SeaReadable',
'sample heater temperature',
io='sea_main',
sea_object='tt',
rel_paths=['ts', 'setsamp']
)
Mod('ts',
'frappy_psi.parmod.Converging',
'test for parmod',
unit='K',
value_param='th.value',
target_param='th.setsamp',
meaning=['temperature', 20],
settling_time=20,
tolerance=1,
)
Mod('samph',
'frappy_psi.sea.SeaWritable', '',
io='sea_main',
sea_object='tt',
rel_paths=['setsamp','power'],
)
Mod('cc',
'frappy_psi.sea.SeaReadable', '',
io = 'sea_main',
sea_object = 'cc',
)
Mod('nv',
'frappy_psi.sea.SeaWritable', '',
io = 'sea_main',
sea_object = 'nv',
)
Mod('hefill',
'frappy_psi.sea.SeaWritable', '',
io = 'sea_main',
sea_object = 'hefill',
)
Mod('hepump',
'frappy_psi.sea.SeaWritable', '',
io = 'sea_main',
sea_object = 'hepump',
)
Mod('hemot',
'frappy_psi.sea.SeaDrivable', '',
io = 'sea_main',
sea_object = 'hemot',
)
Mod('nvflow',
'frappy_psi.sea.SeaReadable', '',
io = 'sea_main',
sea_object = 'nvflow',
)
Mod('ln2fill',
'frappy_psi.sea.SeaWritable', '',
io = 'sea_main',
sea_object = 'ln2fill',
)
Mod('mf',
'frappy_psi.sea.SeaDrivable', '',
io = 'sea_main',
sea_object = 'mf',
)
Mod('lev',
'frappy_psi.sea.SeaReadable', '',
io = 'sea_main',
sea_object = 'lev',
)
Mod('tcoil1',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='tcoil',
rel_paths=['ta'],
)
Mod('tcoil2',
'frappy_psi.sea.SeaReadable', '',
io='sea_main',
sea_object='tcoil',
rel_paths=['tb'],
)
Mod('table',
'frappy_psi.sea.SeaReadable', '',
io = 'sea_main',
sea_object = 'table',
)
Mod('stick_io',
'frappy_psi.phytron.PhytronIO',
'dom motor IO',
uri='ma7-ts.psi.ch:3007',
)
Mod('stickrot',
'frappy_psi.phytron.Motor',
'stick rotation, typically not used as omega',
io='stick_io',
encoder_mode='CHECK',
)

139
cfg/razorbillUC220T_cfg.py Normal file
View File

@ -0,0 +1,139 @@
# call $ bin/frappy-server razorbillUC220T
# in frappy directory, with python with frappy libraries installed.
Node('UC220T.psi.ch',
'A Razorbill UC220T controlled by a RP100 high voltage powersupply and a ACM1219 (AD7746) capacitance meter',
interface='tcp://3000')
Mod('io1',
'frappy_psi.RP100.RP100IO',
'communication',
uri='serial:///dev/ttyACM1?baudrate=9600+bytesize=8+parity=none+stopbits=1',
visibility=2)
Mod('Tension',
'frappy_psi.RP100.VoltageChannel',
'Voltage Channel 1',
temp='T',
io='io1',
target=Param(min=-200, max=200),
max_target=120,
min_target=-20,
slew_rate=5,
channel=1)
Mod('Compression',
'frappy_psi.RP100.VoltageChannel',
'Voltage Channel 2',
temp='T',
io='io1',
target=Param(min=-200, max=200),
max_target=120,
min_target=-20,
slew_rate=5,
channel=2)
Mod('io2',
'frappy_psi.ACM1219.ACM1219IO',
'communication',
uri='serial:///dev/ttyUSB1?baudrate=9600+bytesize=8+parity=none+stopbits=1',
visibility=2)
Mod('C1',
'frappy_psi.ACM1219.OneChannel',
'channel 1',
channel_enabled=True,
channel=1,
io='io2',
group='cap')
Mod('io3',
'frappy_psi.ACM1219.ACM1219IO',
'communication',
uri='serial:///dev/ttyUSB2?baudrate=9600+bytesize=8+parity=none+stopbits=1',
visibility=2)
Mod('C2',
'frappy_psi.ACM1219.OneChannel',
'channel 1',
channel_enabled=True,
channel=1,
io='io3',
group='cap')
# Mod('C1',
# 'frappy_psi.ACM1219.Channel',
# 'channel 1',
# group='cap')
# Mod('C2',
# 'frappy_psi.ACM1219.Channel',
# 'channel 2',
# group='cap')
# Mod('C1C2',
# 'frappy_psi.ACM1219.BothChannels',
# 'Capacitance channels 1 and 2',
# chan1='C1',
# chan2='C2',
# channels_enabled=True,
# io='io2',
# group='cap')
Mod('d',
'frappy_psi.razorbill.Displacement',
'razorbill displacement from capacitance',
cap='C1',
alpha290K=56.710,
d0=95.443,
Cp=0.01883,
d0_curve={'a':4.21,'b':-0.00157,'c':-3.38e-5,'d':5.28e-8,'e':-6.93e-11},
temp='T')
Mod('strain',
'frappy_psi.razorbill.Strain',
'Sample strain from force',
displacement='d',
L=3,
)
Mod('F',
'frappy_psi.razorbill.Force',
'razorbill force from capacitance',
cap='C2',
alpha290K=374.23,
f0=315.63,
Cp=0.0755,
f0_curve={'a':38.9,'b':-0.0147,'c':-0.000346,'d':8.96e-7,'e':-1.58e-9},
temp='T')
Mod('stress',
'frappy_psi.razorbill.Stress',
'Sample stress from force',
force='F',
area=0.1,
)
Mod('YM',
'frappy_psi.razorbill.YoungsModulus',
'Sample youngs modulus from stress and strain',
stress='stress',
strain='strain',
)
Mod('T',
'frappy_psi.razorbill.Temp',
'dummy T written from client',
target=Param(value=300, min=1, max=325),
)
Mod('io4',
'frappy_psi.ls372.StringIO',
'the communication device',
uri='tcp://192.168.3.3:7777',
visibility=2
)
Mod('lsswitcher',
'frappy_psi.ls372.Switcher',
'Switcher control of Lsc controller',
uri='tcp://192.168.3.3:7777',
io='io4',
)
Mod('res',
'frappy_psi.ls372.ResChannel',
'resistivity',
iexc='100uA',
range='63.2mOhm',
channel=1,
switcher='lsswitcher',
)

27
cfg/sea/ori7_cfg.py → cfg/sea/ccrpe_cfg.py
View File

@ -1,10 +1,10 @@
Node('ori7.config.sea.psi.ch', Node('ccrpe.config.sea.psi.ch',
'''orange cryostat with 50 mm sample space for ULT''', '''4 K closed cycle cryostat (PE cell)''',
) )
Mod('sea_main', Mod('sea_main',
'frappy_psi.sea.SeaClient', 'frappy_psi.sea.SeaClient',
'main sea connection for ori7.config', 'main sea connection for ccrpe.config',
config = 'ori7.config', config = 'ccrpe.config',
service = 'main', service = 'main',
) )
Mod('tt', Mod('tt',
@ -22,16 +22,6 @@ Mod('nv',
io = 'sea_main', io = 'sea_main',
sea_object = 'nv', sea_object = 'nv',
) )
Mod('ln2fill',
'frappy_psi.sea.SeaWritable', '',
io = 'sea_main',
sea_object = 'ln2fill',
)
Mod('hefill',
'frappy_psi.sea.SeaWritable', '',
io = 'sea_main',
sea_object = 'hefill',
)
Mod('hepump', Mod('hepump',
'frappy_psi.sea.SeaWritable', '', 'frappy_psi.sea.SeaWritable', '',
io = 'sea_main', io = 'sea_main',
@ -47,8 +37,13 @@ Mod('nvflow',
io = 'sea_main', io = 'sea_main',
sea_object = 'nvflow', sea_object = 'nvflow',
) )
Mod('table', Mod('warmup',
'frappy_psi.sea.SeaDrivable', '',
io = 'sea_main',
sea_object = 'warmup',
)
Mod('p',
'frappy_psi.sea.SeaReadable', '', 'frappy_psi.sea.SeaReadable', '',
io = 'sea_main', io = 'sea_main',
sea_object = 'table', sea_object = 'p',
) )

3
cfg/sea/ill5pgas5.config.json
View File

@ -72,8 +72,7 @@
{"path": "min_cpl", "type": "float", "readonly": false, "cmd": "pauto min_cpl"}, {"path": "min_cpl", "type": "float", "readonly": false, "cmd": "pauto min_cpl"},
{"path": "max_cpl", "type": "float", "readonly": false, "cmd": "pauto max_cpl"}, {"path": "max_cpl", "type": "float", "readonly": false, "cmd": "pauto max_cpl"},
{"path": "fact_cpl", "type": "float", "readonly": false, "cmd": "pauto fact_cpl"}, {"path": "fact_cpl", "type": "float", "readonly": false, "cmd": "pauto fact_cpl"},
{"path": "max_ramp", "type": "float", "readonly": false, "cmd": "pauto max_ramp"}, {"path": "max_ramp", "type": "float", "readonly": false, "cmd": "pauto max_ramp"}]},
{"path": "target", "type": "float"}]},
"tc": {"base": "/tc", "params": [ "tc": {"base": "/tc", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run tc", "description": "tc", "kids": 15}, {"path": "", "type": "float", "readonly": false, "cmd": "run tc", "description": "tc", "kids": 15},

395
cfg/sea/ma10heat.config.json Normal file
View File

@ -0,0 +1,395 @@
{"tt": {"base": "/tt", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run tt", "description": "tt", "kids": 18},
{"path": "send", "type": "text", "readonly": false, "cmd": "tt send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "tt is_running", "visibility": 3},
{"path": "mainloop", "type": "text", "readonly": false, "cmd": "tt mainloop", "visibility": 3},
{"path": "target", "type": "float"},
{"path": "running", "type": "int"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "tt tolerance"},
{"path": "maxwait", "type": "float", "readonly": false, "cmd": "tt maxwait"},
{"path": "settle", "type": "float", "readonly": false, "cmd": "tt settle"},
{"path": "log", "type": "text", "readonly": false, "cmd": "tt log", "visibility": 3, "kids": 4},
{"path": "log/mean", "type": "float", "visibility": 3},
{"path": "log/m2", "type": "float", "visibility": 3},
{"path": "log/stddev", "type": "float", "visibility": 3},
{"path": "log/n", "type": "float", "visibility": 3},
{"path": "dblctrl", "type": "bool", "readonly": false, "cmd": "tt dblctrl", "kids": 9},
{"path": "dblctrl/tshift", "type": "float", "readonly": false, "cmd": "tt dblctrl/tshift"},
{"path": "dblctrl/mode", "type": "enum", "enum": {"disabled": -1, "inactive": 0, "stable": 1, "up": 2, "down": 3}, "readonly": false, "cmd": "tt dblctrl/mode"},
{"path": "dblctrl/shift_up", "type": "float"},
{"path": "dblctrl/shift_lo", "type": "float"},
{"path": "dblctrl/t_min", "type": "float"},
{"path": "dblctrl/t_max", "type": "float"},
{"path": "dblctrl/int2", "type": "float", "readonly": false, "cmd": "tt dblctrl/int2"},
{"path": "dblctrl/prop_up", "type": "float", "readonly": false, "cmd": "tt dblctrl/prop_up"},
{"path": "dblctrl/prop_lo", "type": "float", "readonly": false, "cmd": "tt dblctrl/prop_lo"},
{"path": "tm", "type": "float", "kids": 4},
{"path": "tm/curve", "type": "text", "readonly": false, "cmd": "tt tm/curve", "kids": 1},
{"path": "tm/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt tm/curve/points", "visibility": 3},
{"path": "tm/alarm", "type": "float", "readonly": false, "cmd": "tt tm/alarm"},
{"path": "tm/stddev", "type": "float"},
{"path": "tm/raw", "type": "float"},
{"path": "ts", "type": "float", "kids": 4},
{"path": "ts/curve", "type": "text", "readonly": false, "cmd": "tt ts/curve", "kids": 1},
{"path": "ts/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt ts/curve/points", "visibility": 3},
{"path": "ts/alarm", "type": "float", "readonly": false, "cmd": "tt ts/alarm"},
{"path": "ts/stddev", "type": "float"},
{"path": "ts/raw", "type": "float"},
{"path": "ts_2", "type": "float", "kids": 4},
{"path": "ts_2/curve", "type": "text", "readonly": false, "cmd": "tt ts_2/curve", "kids": 1},
{"path": "ts_2/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt ts_2/curve/points", "visibility": 3},
{"path": "ts_2/alarm", "type": "float", "readonly": false, "cmd": "tt ts_2/alarm"},
{"path": "ts_2/stddev", "type": "float"},
{"path": "ts_2/raw", "type": "float"},
{"path": "set", "type": "float", "readonly": false, "cmd": "tt set", "kids": 18},
{"path": "set/mode", "type": "enum", "enum": {"disabled": -1, "off": 0, "controlling": 1, "manual": 2}, "readonly": false, "cmd": "tt set/mode"},
{"path": "set/reg", "type": "float"},
{"path": "set/ramp", "type": "float", "readonly": false, "cmd": "tt set/ramp", "description": "maximum ramp in K/min (0: ramp off)"},
{"path": "set/wramp", "type": "float", "readonly": false, "cmd": "tt set/wramp"},
{"path": "set/smooth", "type": "float", "readonly": false, "cmd": "tt set/smooth", "description": "smooth time (minutes)"},
{"path": "set/channel", "type": "text", "readonly": false, "cmd": "tt set/channel"},
{"path": "set/limit", "type": "float", "readonly": false, "cmd": "tt set/limit"},
{"path": "set/resist", "type": "float", "readonly": false, "cmd": "tt set/resist"},
{"path": "set/maxheater", "type": "text", "readonly": false, "cmd": "tt set/maxheater", "description": "maximum heater limit, units should be given without space: W, mW, A, mA"},
{"path": "set/linearpower", "type": "float", "readonly": false, "cmd": "tt set/linearpower", "description": "when not 0, it is the maximum effective power, and the power is linear to the heater output"},
{"path": "set/maxpowerlim", "type": "float", "description": "the maximum power limit (before any booster or converter)"},
{"path": "set/maxpower", "type": "float", "readonly": false, "cmd": "tt set/maxpower", "description": "maximum power [W]"},
{"path": "set/maxcurrent", "type": "float", "description": "the maximum current before any booster or converter"},
{"path": "set/manualpower", "type": "float", "readonly": false, "cmd": "tt set/manualpower"},
{"path": "set/power", "type": "float"},
{"path": "set/prop", "type": "float", "readonly": false, "cmd": "tt set/prop", "description": "bigger means more gain"},
{"path": "set/integ", "type": "float", "readonly": false, "cmd": "tt set/integ", "description": "bigger means faster"},
{"path": "set/deriv", "type": "float", "readonly": false, "cmd": "tt set/deriv"},
{"path": "setvti", "type": "float", "readonly": false, "cmd": "tt setvti", "kids": 18},
{"path": "setvti/mode", "type": "enum", "enum": {"disabled": -1, "off": 0, "controlling": 1, "manual": 2}, "readonly": false, "cmd": "tt setvti/mode"},
{"path": "setvti/reg", "type": "float"},
{"path": "setvti/ramp", "type": "float", "readonly": false, "cmd": "tt setvti/ramp", "description": "maximum ramp in K/min (0: ramp off)"},
{"path": "setvti/wramp", "type": "float", "readonly": false, "cmd": "tt setvti/wramp"},
{"path": "setvti/smooth", "type": "float", "readonly": false, "cmd": "tt setvti/smooth", "description": "smooth time (minutes)"},
{"path": "setvti/channel", "type": "text", "readonly": false, "cmd": "tt setvti/channel"},
{"path": "setvti/limit", "type": "float", "readonly": false, "cmd": "tt setvti/limit"},
{"path": "setvti/resist", "type": "float", "readonly": false, "cmd": "tt setvti/resist"},
{"path": "setvti/maxheater", "type": "text", "readonly": false, "cmd": "tt setvti/maxheater", "description": "maximum heater limit, units should be given without space: W, mW, A, mA"},
{"path": "setvti/linearpower", "type": "float", "readonly": false, "cmd": "tt setvti/linearpower", "description": "when not 0, it is the maximum effective power, and the power is linear to the heater output"},
{"path": "setvti/maxpowerlim", "type": "float", "description": "the maximum power limit (before any booster or converter)"},
{"path": "setvti/maxpower", "type": "float", "readonly": false, "cmd": "tt setvti/maxpower", "description": "maximum power [W]"},
{"path": "setvti/maxcurrent", "type": "float", "description": "the maximum current before any booster or converter"},
{"path": "setvti/manualpower", "type": "float", "readonly": false, "cmd": "tt setvti/manualpower"},
{"path": "setvti/power", "type": "float"},
{"path": "setvti/prop", "type": "float", "readonly": false, "cmd": "tt setvti/prop", "description": "bigger means more gain"},
{"path": "setvti/integ", "type": "float", "readonly": false, "cmd": "tt setvti/integ", "description": "bigger means faster"},
{"path": "setvti/deriv", "type": "float", "readonly": false, "cmd": "tt setvti/deriv"},
{"path": "display", "type": "text", "readonly": false, "cmd": "tt display"},
{"path": "remote", "type": "bool"}]},
"cc": {"base": "/cc", "params": [
{"path": "", "type": "bool", "kids": 96},
{"path": "send", "type": "text", "readonly": false, "cmd": "cc send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "autodevice", "type": "bool", "readonly": false, "cmd": "cc autodevice"},
{"path": "fav", "type": "bool", "readonly": false, "cmd": "cc fav"},
{"path": "f", "type": "float"},
{"path": "fs", "type": "enum", "enum": {"ok": 0, "no_sens": 1}, "readonly": false, "cmd": "cc fs"},
{"path": "mav", "type": "bool", "readonly": false, "cmd": "cc mav"},
{"path": "fm", "type": "enum", "enum": {"idle": 0, "opening": 1, "closing": 2, "opened": 3, "closed": 4, "no_motor": 5}},
{"path": "fa", "type": "enum", "enum": {"fixed": 0, "controlled": 1, "automatic": 2, "offline": 3}, "readonly": false, "cmd": "cc fa"},
{"path": "mp", "type": "float", "readonly": false, "cmd": "cc mp"},
{"path": "msp", "type": "float"},
{"path": "mmp", "type": "float"},
{"path": "mc", "type": "float", "readonly": false, "cmd": "cc mc"},
{"path": "mfc", "type": "float", "readonly": false, "cmd": "cc mfc"},
{"path": "moc", "type": "float", "readonly": false, "cmd": "cc moc"},
{"path": "mtc", "type": "float", "readonly": false, "cmd": "cc mtc"},
{"path": "mtl", "type": "float"},
{"path": "mft", "type": "float", "readonly": false, "cmd": "cc mft"},
{"path": "mt", "type": "float"},
{"path": "mo", "type": "float"},
{"path": "mcr", "type": "float"},
{"path": "mot", "type": "float"},
{"path": "mw", "type": "float", "readonly": false, "cmd": "cc mw", "description": "correction pulse after automatic open"},
{"path": "hav", "type": "bool", "readonly": false, "cmd": "cc hav"},
{"path": "h", "type": "float"},
{"path": "hr", "type": "float"},
{"path": "hc", "type": "float"},
{"path": "hu", "type": "float"},
{"path": "hh", "type": "float", "readonly": false, "cmd": "cc hh"},
{"path": "hl", "type": "float", "readonly": false, "cmd": "cc hl"},
{"path": "htf", "type": "float", "readonly": false, "cmd": "cc htf", "description": "meas. period in fast mode"},
{"path": "hts", "type": "float", "readonly": false, "cmd": "cc hts", "description": "meas. period in slow mode"},
{"path": "hd", "type": "float", "readonly": false, "cmd": "cc hd"},
{"path": "hwr", "type": "float", "readonly": false, "cmd": "cc hwr"},
{"path": "hem", "type": "float", "readonly": false, "cmd": "cc hem", "description": "sensor length in mm from top to empty pos."},
{"path": "hfu", "type": "float", "readonly": false, "cmd": "cc hfu", "description": "sensor length in mm from top to full pos."},
{"path": "hcd", "type": "enum", "enum": {"stop": 0, "fill": 1, "off": 2, "auto": 3, "manual": 7}, "readonly": false, "cmd": "cc hcd"},
{"path": "hv", "type": "enum", "enum": {"fill_valve_off": 0, "filling": 1, "no_fill_valve": 2, "timeout": 3, "timeout1": 4}},
{"path": "hsf", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "ha", "type": "bool", "readonly": false, "cmd": "cc ha"},
{"path": "hm", "type": "bool"},
{"path": "hf", "type": "enum", "enum": {"slow": 0, "fast": 1}, "readonly": false, "cmd": "cc hf"},
{"path": "hbe", "type": "bool", "readonly": false, "cmd": "cc hbe"},
{"path": "hmf", "type": "float"},
{"path": "hms", "type": "float"},
{"path": "hit", "type": "float", "readonly": false, "cmd": "cc hit"},
{"path": "hft", "type": "int", "readonly": false, "cmd": "cc hft"},
{"path": "hea", "type": "enum", "enum": {"0": 0, "1": 1, "6": 6}, "readonly": false, "cmd": "cc hea"},
{"path": "hch", "type": "int", "readonly": false, "cmd": "cc hch", "visibility": 3},
{"path": "hwr0", "type": "float", "readonly": false, "cmd": "cc hwr0", "visibility": 3},
{"path": "hem0", "type": "float", "readonly": false, "cmd": "cc hem0", "description": "sensor length in mm from top to empty pos.", "visibility": 3},
{"path": "hfu0", "type": "float", "readonly": false, "cmd": "cc hfu0", "description": "sensor length in mm from top to full pos.", "visibility": 3},
{"path": "hd0", "type": "float", "readonly": false, "cmd": "cc hd0", "description": "external sensor drive current (mA)", "visibility": 3},
{"path": "h0", "type": "float", "visibility": 3},
{"path": "hs0", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h1", "type": "float", "visibility": 3},
{"path": "hs1", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h2", "type": "float", "visibility": 3},
{"path": "hs2", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h3", "type": "float", "visibility": 3},
{"path": "hs3", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h4", "type": "float", "visibility": 3},
{"path": "hs4", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h5", "type": "float", "visibility": 3},
{"path": "hs5", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "hfb", "type": "float"},
{"path": "nav", "type": "bool", "readonly": false, "cmd": "cc nav"},
{"path": "nu", "type": "float"},
{"path": "nl", "type": "float"},
{"path": "nth", "type": "float", "readonly": false, "cmd": "cc nth"},
{"path": "ntc", "type": "float", "readonly": false, "cmd": "cc ntc"},
{"path": "ntm", "type": "float", "readonly": false, "cmd": "cc ntm"},
{"path": "ns", "type": "enum", "enum": {"sens_ok": 0, "no_sens": 1, "short_circuit": 2, "upside_down": 3, "sens_warm": 4, "empty": 5}},
{"path": "na", "type": "bool", "readonly": false, "cmd": "cc na"},
{"path": "nv", "type": "enum", "enum": {"fill_valve_off": 0, "filling": 1, "no_fill_valve": 2, "timeout": 3, "timeout1": 4, "boost": 5}},
{"path": "nc", "type": "enum", "enum": {"stop": 0, "fill": 1, "off": 2, "auto": 3}, "readonly": false, "cmd": "cc nc"},
{"path": "nfb", "type": "float"},
{"path": "cda", "type": "float"},
{"path": "cdb", "type": "float"},
{"path": "cba", "type": "float"},
{"path": "cbb", "type": "float"},
{"path": "cvs", "type": "int"},
{"path": "csp", "type": "int"},
{"path": "cdv", "type": "text", "readonly": false, "cmd": "cc cdv"},
{"path": "cic", "type": "text", "readonly": false, "cmd": "cc cic"},
{"path": "cin", "type": "text"},
{"path": "cds", "type": "enum", "enum": {"local": 0, "remote": 1, "loading": 2, "by_code": 3, "by_touch": 4}, "readonly": false, "cmd": "cc cds"},
{"path": "timing", "type": "bool", "readonly": false, "cmd": "cc timing"},
{"path": "tc", "type": "float", "visibility": 3},
{"path": "tn", "type": "float", "visibility": 3},
{"path": "th", "type": "float", "visibility": 3},
{"path": "tf", "type": "float", "visibility": 3},
{"path": "tm", "type": "float", "visibility": 3},
{"path": "tv", "type": "float", "visibility": 3},
{"path": "tq", "type": "float", "visibility": 3},
{"path": "bdl", "type": "float", "readonly": false, "cmd": "cc bdl"}]},
"nv": {"base": "/nv", "params": [
{"path": "", "type": "enum", "enum": {"fixed": 0, "controlled": 1, "automatic": 2, "close": 3, "open": 4}, "readonly": false, "cmd": "nv", "kids": 11},
{"path": "send", "type": "text", "readonly": false, "cmd": "nv send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "motstat", "type": "enum", "enum": {"idle": 0, "opening": 1, "closing": 2, "opened": 3, "closed": 4, "no_motor": 5}},
{"path": "flow", "type": "float"},
{"path": "set", "type": "float", "readonly": false, "cmd": "nv set"},
{"path": "flowmax", "type": "float", "readonly": false, "cmd": "nv flowmax"},
{"path": "flowp", "type": "float"},
{"path": "span", "type": "float"},
{"path": "ctrl", "type": "none", "kids": 13},
{"path": "ctrl/regtext", "type": "text"},
{"path": "ctrl/prop_o", "type": "float", "readonly": false, "cmd": "nv ctrl/prop_o", "description": "prop [sec/mbar] when opening. above 4 mbar a 10 times lower value is used"},
{"path": "ctrl/prop_c", "type": "float", "readonly": false, "cmd": "nv ctrl/prop_c", "description": "prop [sec/mbar] when closing. above 4 mbar a 10 times lower value is used"},
{"path": "ctrl/deriv_o", "type": "float", "readonly": false, "cmd": "nv ctrl/deriv_o", "description": "convergence target time [sec] when opening"},
{"path": "ctrl/deriv_c", "type": "float", "readonly": false, "cmd": "nv ctrl/deriv_c", "description": "convergence target time [sec] when closing"},
{"path": "ctrl/minpulse_o", "type": "float", "readonly": false, "cmd": "nv ctrl/minpulse_o", "description": "minimum close pulse [sec]"},
{"path": "ctrl/minpulse_c", "type": "float", "readonly": false, "cmd": "nv ctrl/minpulse_c", "description": "standard close pulse [sec]"},
{"path": "ctrl/hystpulse_o", "type": "float", "readonly": false, "cmd": "nv ctrl/hystpulse_o", "description": "motor pulse to overcome hysteresis when opening"},
{"path": "ctrl/hystpulse_c", "type": "float", "readonly": false, "cmd": "nv ctrl/hystpulse_c", "description": "motor pulse to overcome hysteresis when closing"},
{"path": "ctrl/tol", "type": "float", "readonly": false, "cmd": "nv ctrl/tol", "description": "valid below 3 mbar"},
{"path": "ctrl/tolhigh", "type": "float", "readonly": false, "cmd": "nv ctrl/tolhigh", "description": "valid above 4 mbar"},
{"path": "ctrl/openpulse", "type": "float", "readonly": false, "cmd": "nv ctrl/openpulse", "description": "time to open from completely closed to a significant opening"},
{"path": "ctrl/adjust_minpulse", "type": "bool", "readonly": false, "cmd": "nv ctrl/adjust_minpulse", "description": "adjust minpulse automatically"},
{"path": "autoflow", "type": "none", "kids": 24},
{"path": "autoflow/suspended", "type": "bool", "readonly": false, "cmd": "nv autoflow/suspended"},
{"path": "autoflow/prop", "type": "float", "readonly": false, "cmd": "nv autoflow/prop"},
{"path": "autoflow/flowstd", "type": "float", "readonly": false, "cmd": "nv autoflow/flowstd"},
{"path": "autoflow/flowlim", "type": "float", "readonly": false, "cmd": "nv autoflow/flowlim"},
{"path": "autoflow/smooth", "type": "float", "readonly": false, "cmd": "nv autoflow/smooth"},
{"path": "autoflow/difSize", "type": "float", "readonly": false, "cmd": "nv autoflow/difSize"},
{"path": "autoflow/difRange", "type": "float", "readonly": false, "cmd": "nv autoflow/difRange"},
{"path": "autoflow/flowSize", "type": "float", "readonly": false, "cmd": "nv autoflow/flowSize"},
{"path": "autoflow/convTime", "type": "float", "readonly": false, "cmd": "nv autoflow/convTime"},
{"path": "autoflow/Tmin", "type": "float", "readonly": false, "cmd": "nv autoflow/Tmin"},
{"path": "autoflow/script", "type": "text", "readonly": false, "cmd": "nv autoflow/script"},
{"path": "autoflow/getTemp", "type": "text", "readonly": false, "cmd": "nv autoflow/getTemp"},
{"path": "autoflow/getTset", "type": "text", "readonly": false, "cmd": "nv autoflow/getTset"},
{"path": "autoflow/getFlow", "type": "text", "readonly": false, "cmd": "nv autoflow/getFlow"},
{"path": "autoflow/difBuf", "type": "text"},
{"path": "autoflow/flowBuf", "type": "text"},
{"path": "autoflow/flowset", "type": "float"},
{"path": "autoflow/flowmin", "type": "float"},
{"path": "autoflow/flowmax", "type": "float"},
{"path": "autoflow/difmin", "type": "float"},
{"path": "autoflow/difmax", "type": "float"},
{"path": "autoflow/setmin", "type": "float"},
{"path": "autoflow/setmax", "type": "float"},
{"path": "autoflow/flowtarget", "type": "float"},
{"path": "calib", "type": "none", "kids": 2},
{"path": "calib/ln_per_min_per_mbar", "type": "float", "readonly": false, "cmd": "nv calib/ln_per_min_per_mbar"},
{"path": "calib/mbar_offset", "type": "float", "readonly": false, "cmd": "nv calib/mbar_offset"}]},
"hepump": {"base": "/hepump", "params": [
{"path": "", "type": "enum", "enum": {"xds35_auto": 0, "xds35_manual": 1, "sv65": 2, "other": 3, "no": -1}, "readonly": false, "cmd": "hepump", "description": "xds35: scroll pump, sv65: leybold", "kids": 10},
{"path": "send", "type": "text", "readonly": false, "cmd": "hepump send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "running", "type": "bool", "readonly": false, "cmd": "hepump running"},
{"path": "eco", "type": "bool", "readonly": false, "cmd": "hepump eco"},
{"path": "auto", "type": "bool", "readonly": false, "cmd": "hepump auto"},
{"path": "valve", "type": "enum", "enum": {"closed": 0, "closing": 1, "opening": 2, "opened": 3, "undefined": 4}, "readonly": false, "cmd": "hepump valve"},
{"path": "eco_t_lim", "type": "float", "readonly": false, "cmd": "hepump eco_t_lim", "description": "switch off eco mode when T_set < eco_t_lim and T < eco_t_lim * 2"},
{"path": "calib", "type": "float", "readonly": false, "cmd": "hepump calib", "visibility": 3},
{"path": "health", "type": "float"}]},
"hemot": {"base": "/hepump/hemot", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run hemot", "kids": 30},
{"path": "send", "type": "text", "readonly": false, "cmd": "hemot send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "hemot is_running", "visibility": 3},
{"path": "pos", "type": "float"},
{"path": "encoder", "type": "float"},
{"path": "zero", "type": "float", "readonly": false, "cmd": "hemot zero"},
{"path": "lowerlimit", "type": "float", "readonly": false, "cmd": "hemot lowerlimit"},
{"path": "upperlimit", "type": "float", "readonly": false, "cmd": "hemot upperlimit"},
{"path": "disablelimits", "type": "bool", "readonly": false, "cmd": "hemot disablelimits"},
{"path": "verbose", "type": "bool", "readonly": false, "cmd": "hemot verbose"},
{"path": "target", "type": "float"},
{"path": "runstate", "type": "enum", "enum": {"idle": 0, "running": 1, "finished": 2, "error": 3}},
{"path": "precision", "type": "float", "readonly": false, "cmd": "hemot precision"},
{"path": "maxencdif", "type": "float", "readonly": false, "cmd": "hemot maxencdif"},
{"path": "id", "type": "float", "readonly": false, "cmd": "hemot id"},
{"path": "pump_number", "type": "float", "readonly": false, "cmd": "hemot pump_number"},
{"path": "init", "type": "float", "readonly": false, "cmd": "hemot init"},
{"path": "maxspeed", "type": "float", "readonly": false, "cmd": "hemot maxspeed"},
{"path": "acceleration", "type": "float", "readonly": false, "cmd": "hemot acceleration"},
{"path": "maxcurrent", "type": "float", "readonly": false, "cmd": "hemot maxcurrent"},
{"path": "standbycurrent", "type": "float", "readonly": false, "cmd": "hemot standbycurrent"},
{"path": "freewheeling", "type": "bool", "readonly": false, "cmd": "hemot freewheeling"},
{"path": "output0", "type": "bool", "readonly": false, "cmd": "hemot output0"},
{"path": "output1", "type": "bool", "readonly": false, "cmd": "hemot output1"},
{"path": "input3", "type": "bool"},
{"path": "pullup", "type": "float", "readonly": false, "cmd": "hemot pullup"},
{"path": "nopumpfeedback", "type": "bool", "readonly": false, "cmd": "hemot nopumpfeedback"},
{"path": "eeprom", "type": "enum", "enum": {"ok": 0, "dirty": 1, "save": 2, "load": 3}, "readonly": false, "cmd": "hemot eeprom"},
{"path": "customadr", "type": "text", "readonly": false, "cmd": "hemot customadr"},
{"path": "custompar", "type": "float", "readonly": false, "cmd": "hemot custompar"}]},
"nvflow": {"base": "/nvflow", "params": [
{"path": "", "type": "float", "kids": 7},
{"path": "send", "type": "text", "readonly": false, "cmd": "nvflow send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "stddev", "type": "float"},
{"path": "nsamples", "type": "int", "readonly": false, "cmd": "nvflow nsamples"},
{"path": "offset", "type": "float", "readonly": false, "cmd": "nvflow offset"},
{"path": "scale", "type": "float", "readonly": false, "cmd": "nvflow scale"},
{"path": "save", "type": "bool", "readonly": false, "cmd": "nvflow save", "description": "unchecked: current calib is not saved. set checked: save calib"}]},
"mf": {"base": "/mf", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run mf", "kids": 8},
{"path": "send", "type": "text", "readonly": false, "cmd": "mf send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "mf is_running", "visibility": 3},
{"path": "statustext", "type": "text"},
{"path": "ramp", "type": "float", "readonly": false, "cmd": "mf ramp"},
{"path": "persistent_mode", "type": "enum", "enum": {"forever_off": -1, "off": 0, "on": 1}, "readonly": false, "cmd": "mf persistent_mode", "description": "hidden mode -1: completely off"},
{"path": "gen", "type": "none", "kids": 13},
{"path": "gen/persistent_delay", "type": "float", "readonly": false, "cmd": "mf gen/persistent_delay", "description": "timeout for going automatically into persistent mode"},
{"path": "gen/tolerance", "type": "float", "readonly": false, "cmd": "mf gen/tolerance"},
{"path": "gen/wait_switch_on", "type": "float", "readonly": false, "cmd": "mf gen/wait_switch_on"},
{"path": "gen/wait_switch_off", "type": "float", "readonly": false, "cmd": "mf gen/wait_switch_off"},
{"path": "gen/wait_stable_leads", "type": "float", "readonly": false, "cmd": "mf gen/wait_stable_leads"},
{"path": "gen/wait_stable_field", "type": "float", "readonly": false, "cmd": "mf gen/wait_stable_field"},
{"path": "gen/expectend", "type": "text"},
{"path": "gen/trained_pos", "type": "float", "readonly": false, "cmd": "mf gen/trained_pos"},
{"path": "gen/trained_neg", "type": "float", "readonly": false, "cmd": "mf gen/trained_neg"},
{"path": "gen/profile", "type": "text", "readonly": false, "cmd": "mf gen/profile", "description": "syntax: <field1>:<ramp1> <field2>:<ramp2> ... (<ramp2> is the ramp limit from <field1> to <field2>)"},
{"path": "gen/profile_training", "type": "text", "readonly": false, "cmd": "mf gen/profile_training", "description": "syntax: <field1>:<ramp1> <field2>:<ramp2> ... (<ramp2> is the ramp limit from <field1> to <field2>)"},
{"path": "gen/limit", "type": "float", "readonly": false, "cmd": "mf gen/limit"},
{"path": "gen/bipolar", "type": "bool", "readonly": false, "cmd": "mf gen/bipolar"},
{"path": "ips", "type": "float", "kids": 17},
{"path": "ips/ramp_slow", "type": "float", "readonly": false, "cmd": "mf ips/ramp_slow", "description": "ramp rate for coils Tesla/min."},
{"path": "ips/ramp_fast", "type": "float", "description": "ramp rate for leads Tesla/min."},
{"path": "ips/set_field", "type": "float", "readonly": false, "cmd": "mf ips/set_field"},
{"path": "ips/heater", "type": "bool", "readonly": false, "cmd": "mf ips/heater"},
{"path": "ips/ramp_state", "type": "enum", "enum": {"hold": 0, "to_zero": 1, "to_set": 2, "clamp": 3}, "readonly": false, "cmd": "mf ips/ramp_state"},
{"path": "ips/leads_set", "type": "float", "description": "calculated current in the leads, converted to Tesla"},
{"path": "ips/show_internals", "type": "bool", "readonly": false, "cmd": "mf ips/show_internals"},
{"path": "ips/leads_meas", "type": "float", "description": "measured current in the leads, converted to Tesla"},
{"path": "ips/slave1", "type": "float"},
{"path": "ips/slave2", "type": "float"},
{"path": "ips/slave3", "type": "float"},
{"path": "ips/volt", "type": "float"},
{"path": "ips/symode", "type": "text"},
{"path": "ips/engineering_password", "type": "text", "readonly": false, "cmd": "mf ips/engineering_password"},
{"path": "ips/atob", "type": "float", "readonly": false, "cmd": "mf ips/atob", "description": "Amp/Tesla"},
{"path": "ips/inductance", "type": "float", "readonly": false, "cmd": "mf ips/inductance", "description": "henries"},
{"path": "ips/switch_heater_current", "type": "float", "readonly": false, "cmd": "mf ips/switch_heater_current", "description": "switch heater current [mA]"}]},
"lev": {"base": "/lev", "params": [
{"path": "", "type": "float", "kids": 4},
{"path": "send", "type": "text", "readonly": false, "cmd": "lev send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "mode", "type": "enum", "enum": {"slow": 0, "fast": 1}, "readonly": false, "cmd": "lev mode"},
{"path": "n2", "type": "float"}]},
"ln2fill": {"base": "/ln2fill", "params": [
{"path": "", "type": "enum", "enum": {"watching": 0, "filling": 1, "inactive": 2, "manualfill": 3}, "readonly": false, "cmd": "ln2fill", "kids": 14},
{"path": "send", "type": "text", "readonly": false, "cmd": "ln2fill send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "state", "type": "text"},
{"path": "readlevel", "type": "text", "readonly": false, "cmd": "ln2fill readlevel", "visibility": 3},
{"path": "lowlevel", "type": "float", "readonly": false, "cmd": "ln2fill lowlevel"},
{"path": "highlevel", "type": "float", "readonly": false, "cmd": "ln2fill highlevel"},
{"path": "smooth", "type": "float"},
{"path": "minfillminutes", "type": "float", "readonly": false, "cmd": "ln2fill minfillminutes"},
{"path": "maxfillminutes", "type": "float", "readonly": false, "cmd": "ln2fill maxfillminutes"},
{"path": "minholdhours", "type": "float", "readonly": false, "cmd": "ln2fill minholdhours"},
{"path": "maxholdhours", "type": "float", "readonly": false, "cmd": "ln2fill maxholdhours"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "ln2fill tolerance"},
{"path": "badreadingminutes", "type": "float", "readonly": false, "cmd": "ln2fill badreadingminutes"},
{"path": "tubecoolingminutes", "type": "float", "readonly": false, "cmd": "ln2fill tubecoolingminutes"}]},
"hefill": {"base": "/hefill", "params": [
{"path": "", "type": "enum", "enum": {"watching": 0, "filling": 1, "inactive": 2, "manualfill": 3}, "readonly": false, "cmd": "hefill", "kids": 16},
{"path": "send", "type": "text", "readonly": false, "cmd": "hefill send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "state", "type": "text"},
{"path": "readlevel", "type": "text", "readonly": false, "cmd": "hefill readlevel", "visibility": 3},
{"path": "lowlevel", "type": "float", "readonly": false, "cmd": "hefill lowlevel"},
{"path": "highlevel", "type": "float", "readonly": false, "cmd": "hefill highlevel"},
{"path": "smooth", "type": "float"},
{"path": "minfillminutes", "type": "float", "readonly": false, "cmd": "hefill minfillminutes"},
{"path": "maxfillminutes", "type": "float", "readonly": false, "cmd": "hefill maxfillminutes"},
{"path": "minholdhours", "type": "float", "readonly": false, "cmd": "hefill minholdhours"},
{"path": "maxholdhours", "type": "float", "readonly": false, "cmd": "hefill maxholdhours"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "hefill tolerance"},
{"path": "badreadingminutes", "type": "float", "readonly": false, "cmd": "hefill badreadingminutes"},
{"path": "tubecoolingminutes", "type": "float", "readonly": false, "cmd": "hefill tubecoolingminutes"},
{"path": "vessellimit", "type": "float", "readonly": false, "cmd": "hefill vessellimit"},
{"path": "vext", "type": "float"}]},
"table": {"base": "/table", "params": [
{"path": "", "type": "none", "kids": 17},
{"path": "send", "type": "text", "readonly": false, "cmd": "table send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "fix_tt_set_prop", "type": "bool", "readonly": false, "cmd": "table fix_tt_set_prop"},
{"path": "val_tt_set_prop", "type": "float"},
{"path": "tbl_tt_set_prop", "type": "text", "readonly": false, "cmd": "table tbl_tt_set_prop", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_set_integ", "type": "bool", "readonly": false, "cmd": "table fix_tt_set_integ"},
{"path": "val_tt_set_integ", "type": "float"},
{"path": "tbl_tt_set_integ", "type": "text", "readonly": false, "cmd": "table tbl_tt_set_integ", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_int2", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_int2"},
{"path": "val_tt_dblctrl_int2", "type": "float"},
{"path": "tbl_tt_dblctrl_int2", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_int2", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_prop_up", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_prop_up"},
{"path": "val_tt_dblctrl_prop_up", "type": "float"},
{"path": "tbl_tt_dblctrl_prop_up", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_prop_up", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_prop_lo", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_prop_lo"},
{"path": "val_tt_dblctrl_prop_lo", "type": "float"},
{"path": "tbl_tt_dblctrl_prop_lo", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_prop_lo", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."}]}}

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{"tt": {"base": "/tt", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run tt", "description": "tt", "kids": 18},
{"path": "send", "type": "text", "readonly": false, "cmd": "tt send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "tt is_running", "visibility": 3},
{"path": "mainloop", "type": "text", "readonly": false, "cmd": "tt mainloop", "visibility": 3},
{"path": "target", "type": "float"},
{"path": "running", "type": "int"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "tt tolerance"},
{"path": "maxwait", "type": "float", "readonly": false, "cmd": "tt maxwait"},
{"path": "settle", "type": "float", "readonly": false, "cmd": "tt settle"},
{"path": "log", "type": "text", "readonly": false, "cmd": "tt log", "visibility": 3, "kids": 4},
{"path": "log/mean", "type": "float", "visibility": 3},
{"path": "log/m2", "type": "float", "visibility": 3},
{"path": "log/stddev", "type": "float", "visibility": 3},
{"path": "log/n", "type": "float", "visibility": 3},
{"path": "dblctrl", "type": "bool", "readonly": false, "cmd": "tt dblctrl", "kids": 9},
{"path": "dblctrl/tshift", "type": "float", "readonly": false, "cmd": "tt dblctrl/tshift"},
{"path": "dblctrl/mode", "type": "enum", "enum": {"disabled": -1, "inactive": 0, "stable": 1, "up": 2, "down": 3}, "readonly": false, "cmd": "tt dblctrl/mode"},
{"path": "dblctrl/shift_up", "type": "float"},
{"path": "dblctrl/shift_lo", "type": "float"},
{"path": "dblctrl/t_min", "type": "float"},
{"path": "dblctrl/t_max", "type": "float"},
{"path": "dblctrl/int2", "type": "float", "readonly": false, "cmd": "tt dblctrl/int2"},
{"path": "dblctrl/prop_up", "type": "float", "readonly": false, "cmd": "tt dblctrl/prop_up"},
{"path": "dblctrl/prop_lo", "type": "float", "readonly": false, "cmd": "tt dblctrl/prop_lo"},
{"path": "tm", "type": "float", "kids": 4},
{"path": "tm/curve", "type": "text", "readonly": false, "cmd": "tt tm/curve", "kids": 1},
{"path": "tm/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt tm/curve/points", "visibility": 3},
{"path": "tm/alarm", "type": "float", "readonly": false, "cmd": "tt tm/alarm"},
{"path": "tm/stddev", "type": "float"},
{"path": "tm/raw", "type": "float"},
{"path": "ts", "type": "float", "kids": 4},
{"path": "ts/curve", "type": "text", "readonly": false, "cmd": "tt ts/curve", "kids": 1},
{"path": "ts/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt ts/curve/points", "visibility": 3},
{"path": "ts/alarm", "type": "float", "readonly": false, "cmd": "tt ts/alarm"},
{"path": "ts/stddev", "type": "float"},
{"path": "ts/raw", "type": "float"},
{"path": "ts_2", "type": "float", "kids": 4},
{"path": "ts_2/curve", "type": "text", "readonly": false, "cmd": "tt ts_2/curve", "kids": 1},
{"path": "ts_2/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt ts_2/curve/points", "visibility": 3},
{"path": "ts_2/alarm", "type": "float", "readonly": false, "cmd": "tt ts_2/alarm"},
{"path": "ts_2/stddev", "type": "float"},
{"path": "ts_2/raw", "type": "float"},
{"path": "setsamp", "type": "float", "readonly": false, "cmd": "tt setsamp", "kids": 18},
{"path": "setsamp/mode", "type": "enum", "enum": {"disabled": -1, "off": 0, "controlling": 1, "manual": 2}, "readonly": false, "cmd": "tt setsamp/mode"},
{"path": "setsamp/reg", "type": "float"},
{"path": "setsamp/ramp", "type": "float", "readonly": false, "cmd": "tt setsamp/ramp", "description": "maximum ramp in K/min (0: ramp off)"},
{"path": "setsamp/wramp", "type": "float", "readonly": false, "cmd": "tt setsamp/wramp"},
{"path": "setsamp/smooth", "type": "float", "readonly": false, "cmd": "tt setsamp/smooth", "description": "smooth time (minutes)"},
{"path": "setsamp/channel", "type": "text", "readonly": false, "cmd": "tt setsamp/channel"},
{"path": "setsamp/limit", "type": "float", "readonly": false, "cmd": "tt setsamp/limit"},
{"path": "setsamp/resist", "type": "float", "readonly": false, "cmd": "tt setsamp/resist"},
{"path": "setsamp/maxheater", "type": "text", "readonly": false, "cmd": "tt setsamp/maxheater", "description": "maximum heater limit, units should be given without space: W, mW, A, mA"},
{"path": "setsamp/linearpower", "type": "float", "readonly": false, "cmd": "tt setsamp/linearpower", "description": "when not 0, it is the maximum effective power, and the power is linear to the heater output"},
{"path": "setsamp/maxpowerlim", "type": "float", "description": "the maximum power limit (before any booster or converter)"},
{"path": "setsamp/maxpower", "type": "float", "readonly": false, "cmd": "tt setsamp/maxpower", "description": "maximum power [W]"},
{"path": "setsamp/maxcurrent", "type": "float", "description": "the maximum current before any booster or converter"},
{"path": "setsamp/manualpower", "type": "float", "readonly": false, "cmd": "tt setsamp/manualpower"},
{"path": "setsamp/power", "type": "float"},
{"path": "setsamp/prop", "type": "float", "readonly": false, "cmd": "tt setsamp/prop", "description": "bigger means more gain"},
{"path": "setsamp/integ", "type": "float", "readonly": false, "cmd": "tt setsamp/integ", "description": "bigger means faster"},
{"path": "setsamp/deriv", "type": "float", "readonly": false, "cmd": "tt setsamp/deriv"},
{"path": "set", "type": "float", "readonly": false, "cmd": "tt set", "kids": 18},
{"path": "set/mode", "type": "enum", "enum": {"disabled": -1, "off": 0, "controlling": 1, "manual": 2}, "readonly": false, "cmd": "tt set/mode"},
{"path": "set/reg", "type": "float"},
{"path": "set/ramp", "type": "float", "readonly": false, "cmd": "tt set/ramp", "description": "maximum ramp in K/min (0: ramp off)"},
{"path": "set/wramp", "type": "float", "readonly": false, "cmd": "tt set/wramp"},
{"path": "set/smooth", "type": "float", "readonly": false, "cmd": "tt set/smooth", "description": "smooth time (minutes)"},
{"path": "set/channel", "type": "text", "readonly": false, "cmd": "tt set/channel"},
{"path": "set/limit", "type": "float", "readonly": false, "cmd": "tt set/limit"},
{"path": "set/resist", "type": "float", "readonly": false, "cmd": "tt set/resist"},
{"path": "set/maxheater", "type": "text", "readonly": false, "cmd": "tt set/maxheater", "description": "maximum heater limit, units should be given without space: W, mW, A, mA"},
{"path": "set/linearpower", "type": "float", "readonly": false, "cmd": "tt set/linearpower", "description": "when not 0, it is the maximum effective power, and the power is linear to the heater output"},
{"path": "set/maxpowerlim", "type": "float", "description": "the maximum power limit (before any booster or converter)"},
{"path": "set/maxpower", "type": "float", "readonly": false, "cmd": "tt set/maxpower", "description": "maximum power [W]"},
{"path": "set/maxcurrent", "type": "float", "description": "the maximum current before any booster or converter"},
{"path": "set/manualpower", "type": "float", "readonly": false, "cmd": "tt set/manualpower"},
{"path": "set/power", "type": "float"},
{"path": "set/prop", "type": "float", "readonly": false, "cmd": "tt set/prop", "description": "bigger means more gain"},
{"path": "set/integ", "type": "float", "readonly": false, "cmd": "tt set/integ", "description": "bigger means faster"},
{"path": "set/deriv", "type": "float", "readonly": false, "cmd": "tt set/deriv"},
{"path": "display", "type": "text", "readonly": false, "cmd": "tt display"},
{"path": "remote", "type": "bool"}]},
"cc": {"base": "/cc", "params": [
{"path": "", "type": "bool", "kids": 96},
{"path": "send", "type": "text", "readonly": false, "cmd": "cc send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "autodevice", "type": "bool", "readonly": false, "cmd": "cc autodevice"},
{"path": "fav", "type": "bool", "readonly": false, "cmd": "cc fav"},
{"path": "f", "type": "float"},
{"path": "fs", "type": "enum", "enum": {"ok": 0, "no_sens": 1}, "readonly": false, "cmd": "cc fs"},
{"path": "mav", "type": "bool", "readonly": false, "cmd": "cc mav"},
{"path": "fm", "type": "enum", "enum": {"idle": 0, "opening": 1, "closing": 2, "opened": 3, "closed": 4, "no_motor": 5}},
{"path": "fa", "type": "enum", "enum": {"fixed": 0, "controlled": 1, "automatic": 2, "offline": 3}, "readonly": false, "cmd": "cc fa"},
{"path": "mp", "type": "float", "readonly": false, "cmd": "cc mp"},
{"path": "msp", "type": "float"},
{"path": "mmp", "type": "float"},
{"path": "mc", "type": "float", "readonly": false, "cmd": "cc mc"},
{"path": "mfc", "type": "float", "readonly": false, "cmd": "cc mfc"},
{"path": "moc", "type": "float", "readonly": false, "cmd": "cc moc"},
{"path": "mtc", "type": "float", "readonly": false, "cmd": "cc mtc"},
{"path": "mtl", "type": "float"},
{"path": "mft", "type": "float", "readonly": false, "cmd": "cc mft"},
{"path": "mt", "type": "float"},
{"path": "mo", "type": "float"},
{"path": "mcr", "type": "float"},
{"path": "mot", "type": "float"},
{"path": "mw", "type": "float", "readonly": false, "cmd": "cc mw", "description": "correction pulse after automatic open"},
{"path": "hav", "type": "bool", "readonly": false, "cmd": "cc hav"},
{"path": "h", "type": "float"},
{"path": "hr", "type": "float"},
{"path": "hc", "type": "float"},
{"path": "hu", "type": "float"},
{"path": "hh", "type": "float", "readonly": false, "cmd": "cc hh"},
{"path": "hl", "type": "float", "readonly": false, "cmd": "cc hl"},
{"path": "htf", "type": "float", "readonly": false, "cmd": "cc htf", "description": "meas. period in fast mode"},
{"path": "hts", "type": "float", "readonly": false, "cmd": "cc hts", "description": "meas. period in slow mode"},
{"path": "hd", "type": "float", "readonly": false, "cmd": "cc hd"},
{"path": "hwr", "type": "float", "readonly": false, "cmd": "cc hwr"},
{"path": "hem", "type": "float", "readonly": false, "cmd": "cc hem", "description": "sensor length in mm from top to empty pos."},
{"path": "hfu", "type": "float", "readonly": false, "cmd": "cc hfu", "description": "sensor length in mm from top to full pos."},
{"path": "hcd", "type": "enum", "enum": {"stop": 0, "fill": 1, "off": 2, "auto": 3, "manual": 7}, "readonly": false, "cmd": "cc hcd"},
{"path": "hv", "type": "enum", "enum": {"fill_valve_off": 0, "filling": 1, "no_fill_valve": 2, "timeout": 3, "timeout1": 4}},
{"path": "hsf", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "ha", "type": "bool", "readonly": false, "cmd": "cc ha"},
{"path": "hm", "type": "bool"},
{"path": "hf", "type": "enum", "enum": {"slow": 0, "fast": 1}, "readonly": false, "cmd": "cc hf"},
{"path": "hbe", "type": "bool", "readonly": false, "cmd": "cc hbe"},
{"path": "hmf", "type": "float"},
{"path": "hms", "type": "float"},
{"path": "hit", "type": "float", "readonly": false, "cmd": "cc hit"},
{"path": "hft", "type": "int", "readonly": false, "cmd": "cc hft"},
{"path": "hea", "type": "enum", "enum": {"0": 0, "1": 1, "6": 6}, "readonly": false, "cmd": "cc hea"},
{"path": "hch", "type": "int", "readonly": false, "cmd": "cc hch", "visibility": 3},
{"path": "hwr0", "type": "float", "readonly": false, "cmd": "cc hwr0", "visibility": 3},
{"path": "hem0", "type": "float", "readonly": false, "cmd": "cc hem0", "description": "sensor length in mm from top to empty pos.", "visibility": 3},
{"path": "hfu0", "type": "float", "readonly": false, "cmd": "cc hfu0", "description": "sensor length in mm from top to full pos.", "visibility": 3},
{"path": "hd0", "type": "float", "readonly": false, "cmd": "cc hd0", "description": "external sensor drive current (mA)", "visibility": 3},
{"path": "h0", "type": "float", "visibility": 3},
{"path": "hs0", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h1", "type": "float", "visibility": 3},
{"path": "hs1", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h2", "type": "float", "visibility": 3},
{"path": "hs2", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h3", "type": "float", "visibility": 3},
{"path": "hs3", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h4", "type": "float", "visibility": 3},
{"path": "hs4", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "h5", "type": "float", "visibility": 3},
{"path": "hs5", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}, "visibility": 3},
{"path": "hfb", "type": "float"},
{"path": "nav", "type": "bool", "readonly": false, "cmd": "cc nav"},
{"path": "nu", "type": "float"},
{"path": "nl", "type": "float"},
{"path": "nth", "type": "float", "readonly": false, "cmd": "cc nth"},
{"path": "ntc", "type": "float", "readonly": false, "cmd": "cc ntc"},
{"path": "ntm", "type": "float", "readonly": false, "cmd": "cc ntm"},
{"path": "ns", "type": "enum", "enum": {"sens_ok": 0, "no_sens": 1, "short_circuit": 2, "upside_down": 3, "sens_warm": 4, "empty": 5}},
{"path": "na", "type": "bool", "readonly": false, "cmd": "cc na"},
{"path": "nv", "type": "enum", "enum": {"fill_valve_off": 0, "filling": 1, "no_fill_valve": 2, "timeout": 3, "timeout1": 4, "boost": 5}},
{"path": "nc", "type": "enum", "enum": {"stop": 0, "fill": 1, "off": 2, "auto": 3}, "readonly": false, "cmd": "cc nc"},
{"path": "nfb", "type": "float"},
{"path": "cda", "type": "float"},
{"path": "cdb", "type": "float"},
{"path": "cba", "type": "float"},
{"path": "cbb", "type": "float"},
{"path": "cvs", "type": "int"},
{"path": "csp", "type": "int"},
{"path": "cdv", "type": "text", "readonly": false, "cmd": "cc cdv"},
{"path": "cic", "type": "text", "readonly": false, "cmd": "cc cic"},
{"path": "cin", "type": "text"},
{"path": "cds", "type": "enum", "enum": {"local": 0, "remote": 1, "loading": 2, "by_code": 3, "by_touch": 4}, "readonly": false, "cmd": "cc cds"},
{"path": "timing", "type": "bool", "readonly": false, "cmd": "cc timing"},
{"path": "tc", "type": "float", "visibility": 3},
{"path": "tn", "type": "float", "visibility": 3},
{"path": "th", "type": "float", "visibility": 3},
{"path": "tf", "type": "float", "visibility": 3},
{"path": "tm", "type": "float", "visibility": 3},
{"path": "tv", "type": "float", "visibility": 3},
{"path": "tq", "type": "float", "visibility": 3},
{"path": "bdl", "type": "float", "readonly": false, "cmd": "cc bdl"}]},
"nv": {"base": "/nv", "params": [
{"path": "", "type": "enum", "enum": {"fixed": 0, "controlled": 1, "automatic": 2, "close": 3, "open": 4}, "readonly": false, "cmd": "nv", "kids": 11},
{"path": "send", "type": "text", "readonly": false, "cmd": "nv send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "motstat", "type": "enum", "enum": {"idle": 0, "opening": 1, "closing": 2, "opened": 3, "closed": 4, "no_motor": 5}},
{"path": "flow", "type": "float"},
{"path": "set", "type": "float", "readonly": false, "cmd": "nv set"},
{"path": "flowmax", "type": "float", "readonly": false, "cmd": "nv flowmax"},
{"path": "flowp", "type": "float"},
{"path": "span", "type": "float"},
{"path": "ctrl", "type": "none", "kids": 13},
{"path": "ctrl/regtext", "type": "text"},
{"path": "ctrl/prop_o", "type": "float", "readonly": false, "cmd": "nv ctrl/prop_o", "description": "prop [sec/mbar] when opening. above 4 mbar a 10 times lower value is used"},
{"path": "ctrl/prop_c", "type": "float", "readonly": false, "cmd": "nv ctrl/prop_c", "description": "prop [sec/mbar] when closing. above 4 mbar a 10 times lower value is used"},
{"path": "ctrl/deriv_o", "type": "float", "readonly": false, "cmd": "nv ctrl/deriv_o", "description": "convergence target time [sec] when opening"},
{"path": "ctrl/deriv_c", "type": "float", "readonly": false, "cmd": "nv ctrl/deriv_c", "description": "convergence target time [sec] when closing"},
{"path": "ctrl/minpulse_o", "type": "float", "readonly": false, "cmd": "nv ctrl/minpulse_o", "description": "minimum close pulse [sec]"},
{"path": "ctrl/minpulse_c", "type": "float", "readonly": false, "cmd": "nv ctrl/minpulse_c", "description": "standard close pulse [sec]"},
{"path": "ctrl/hystpulse_o", "type": "float", "readonly": false, "cmd": "nv ctrl/hystpulse_o", "description": "motor pulse to overcome hysteresis when opening"},
{"path": "ctrl/hystpulse_c", "type": "float", "readonly": false, "cmd": "nv ctrl/hystpulse_c", "description": "motor pulse to overcome hysteresis when closing"},
{"path": "ctrl/tol", "type": "float", "readonly": false, "cmd": "nv ctrl/tol", "description": "valid below 3 mbar"},
{"path": "ctrl/tolhigh", "type": "float", "readonly": false, "cmd": "nv ctrl/tolhigh", "description": "valid above 4 mbar"},
{"path": "ctrl/openpulse", "type": "float", "readonly": false, "cmd": "nv ctrl/openpulse", "description": "time to open from completely closed to a significant opening"},
{"path": "ctrl/adjust_minpulse", "type": "bool", "readonly": false, "cmd": "nv ctrl/adjust_minpulse", "description": "adjust minpulse automatically"},
{"path": "autoflow", "type": "none", "kids": 24},
{"path": "autoflow/suspended", "type": "bool", "readonly": false, "cmd": "nv autoflow/suspended"},
{"path": "autoflow/prop", "type": "float", "readonly": false, "cmd": "nv autoflow/prop"},
{"path": "autoflow/flowstd", "type": "float", "readonly": false, "cmd": "nv autoflow/flowstd"},
{"path": "autoflow/flowlim", "type": "float", "readonly": false, "cmd": "nv autoflow/flowlim"},
{"path": "autoflow/smooth", "type": "float", "readonly": false, "cmd": "nv autoflow/smooth"},
{"path": "autoflow/difSize", "type": "float", "readonly": false, "cmd": "nv autoflow/difSize"},
{"path": "autoflow/difRange", "type": "float", "readonly": false, "cmd": "nv autoflow/difRange"},
{"path": "autoflow/flowSize", "type": "float", "readonly": false, "cmd": "nv autoflow/flowSize"},
{"path": "autoflow/convTime", "type": "float", "readonly": false, "cmd": "nv autoflow/convTime"},
{"path": "autoflow/Tmin", "type": "float", "readonly": false, "cmd": "nv autoflow/Tmin"},
{"path": "autoflow/script", "type": "text", "readonly": false, "cmd": "nv autoflow/script"},
{"path": "autoflow/getTemp", "type": "text", "readonly": false, "cmd": "nv autoflow/getTemp"},
{"path": "autoflow/getTset", "type": "text", "readonly": false, "cmd": "nv autoflow/getTset"},
{"path": "autoflow/getFlow", "type": "text", "readonly": false, "cmd": "nv autoflow/getFlow"},
{"path": "autoflow/difBuf", "type": "text"},
{"path": "autoflow/flowBuf", "type": "text"},
{"path": "autoflow/flowset", "type": "float"},
{"path": "autoflow/flowmin", "type": "float"},
{"path": "autoflow/flowmax", "type": "float"},
{"path": "autoflow/difmin", "type": "float"},
{"path": "autoflow/difmax", "type": "float"},
{"path": "autoflow/setmin", "type": "float"},
{"path": "autoflow/setmax", "type": "float"},
{"path": "autoflow/flowtarget", "type": "float"},
{"path": "calib", "type": "none", "kids": 2},
{"path": "calib/ln_per_min_per_mbar", "type": "float", "readonly": false, "cmd": "nv calib/ln_per_min_per_mbar"},
{"path": "calib/mbar_offset", "type": "float", "readonly": false, "cmd": "nv calib/mbar_offset"}]},
"hepump": {"base": "/hepump", "params": [
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{"path": "send", "type": "text", "readonly": false, "cmd": "hepump send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "running", "type": "bool", "readonly": false, "cmd": "hepump running"},
{"path": "eco", "type": "bool", "readonly": false, "cmd": "hepump eco"},
{"path": "auto", "type": "bool", "readonly": false, "cmd": "hepump auto"},
{"path": "valve", "type": "enum", "enum": {"closed": 0, "closing": 1, "opening": 2, "opened": 3, "undefined": 4}, "readonly": false, "cmd": "hepump valve"},
{"path": "eco_t_lim", "type": "float", "readonly": false, "cmd": "hepump eco_t_lim", "description": "switch off eco mode when T_set < eco_t_lim and T < eco_t_lim * 2"},
{"path": "calib", "type": "float", "readonly": false, "cmd": "hepump calib", "visibility": 3},
{"path": "health", "type": "float"}]},
"hemot": {"base": "/hepump/hemot", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run hemot", "kids": 30},
{"path": "send", "type": "text", "readonly": false, "cmd": "hemot send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "hemot is_running", "visibility": 3},
{"path": "pos", "type": "float"},
{"path": "encoder", "type": "float"},
{"path": "zero", "type": "float", "readonly": false, "cmd": "hemot zero"},
{"path": "lowerlimit", "type": "float", "readonly": false, "cmd": "hemot lowerlimit"},
{"path": "upperlimit", "type": "float", "readonly": false, "cmd": "hemot upperlimit"},
{"path": "disablelimits", "type": "bool", "readonly": false, "cmd": "hemot disablelimits"},
{"path": "verbose", "type": "bool", "readonly": false, "cmd": "hemot verbose"},
{"path": "target", "type": "float"},
{"path": "runstate", "type": "enum", "enum": {"idle": 0, "running": 1, "finished": 2, "error": 3}},
{"path": "precision", "type": "float", "readonly": false, "cmd": "hemot precision"},
{"path": "maxencdif", "type": "float", "readonly": false, "cmd": "hemot maxencdif"},
{"path": "id", "type": "float", "readonly": false, "cmd": "hemot id"},
{"path": "pump_number", "type": "float", "readonly": false, "cmd": "hemot pump_number"},
{"path": "init", "type": "float", "readonly": false, "cmd": "hemot init"},
{"path": "maxspeed", "type": "float", "readonly": false, "cmd": "hemot maxspeed"},
{"path": "acceleration", "type": "float", "readonly": false, "cmd": "hemot acceleration"},
{"path": "maxcurrent", "type": "float", "readonly": false, "cmd": "hemot maxcurrent"},
{"path": "standbycurrent", "type": "float", "readonly": false, "cmd": "hemot standbycurrent"},
{"path": "freewheeling", "type": "bool", "readonly": false, "cmd": "hemot freewheeling"},
{"path": "output0", "type": "bool", "readonly": false, "cmd": "hemot output0"},
{"path": "output1", "type": "bool", "readonly": false, "cmd": "hemot output1"},
{"path": "input3", "type": "bool"},
{"path": "pullup", "type": "float", "readonly": false, "cmd": "hemot pullup"},
{"path": "nopumpfeedback", "type": "bool", "readonly": false, "cmd": "hemot nopumpfeedback"},
{"path": "eeprom", "type": "enum", "enum": {"ok": 0, "dirty": 1, "save": 2, "load": 3}, "readonly": false, "cmd": "hemot eeprom"},
{"path": "customadr", "type": "text", "readonly": false, "cmd": "hemot customadr"},
{"path": "custompar", "type": "float", "readonly": false, "cmd": "hemot custompar"}]},
"nvflow": {"base": "/nvflow", "params": [
{"path": "", "type": "float", "kids": 7},
{"path": "send", "type": "text", "readonly": false, "cmd": "nvflow send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "stddev", "type": "float"},
{"path": "nsamples", "type": "int", "readonly": false, "cmd": "nvflow nsamples"},
{"path": "offset", "type": "float", "readonly": false, "cmd": "nvflow offset"},
{"path": "scale", "type": "float", "readonly": false, "cmd": "nvflow scale"},
{"path": "save", "type": "bool", "readonly": false, "cmd": "nvflow save", "description": "unchecked: current calib is not saved. set checked: save calib"}]},
"mf": {"base": "/mf", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run mf", "kids": 8},
{"path": "send", "type": "text", "readonly": false, "cmd": "mf send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "mf is_running", "visibility": 3},
{"path": "statustext", "type": "text"},
{"path": "ramp", "type": "float", "readonly": false, "cmd": "mf ramp"},
{"path": "persistent_mode", "type": "enum", "enum": {"forever_off": -1, "off": 0, "on": 1}, "readonly": false, "cmd": "mf persistent_mode", "description": "hidden mode -1: completely off"},
{"path": "gen", "type": "none", "kids": 13},
{"path": "gen/persistent_delay", "type": "float", "readonly": false, "cmd": "mf gen/persistent_delay", "description": "timeout for going automatically into persistent mode"},
{"path": "gen/tolerance", "type": "float", "readonly": false, "cmd": "mf gen/tolerance"},
{"path": "gen/wait_switch_on", "type": "float", "readonly": false, "cmd": "mf gen/wait_switch_on"},
{"path": "gen/wait_switch_off", "type": "float", "readonly": false, "cmd": "mf gen/wait_switch_off"},
{"path": "gen/wait_stable_leads", "type": "float", "readonly": false, "cmd": "mf gen/wait_stable_leads"},
{"path": "gen/wait_stable_field", "type": "float", "readonly": false, "cmd": "mf gen/wait_stable_field"},
{"path": "gen/expectend", "type": "text"},
{"path": "gen/trained_pos", "type": "float", "readonly": false, "cmd": "mf gen/trained_pos"},
{"path": "gen/trained_neg", "type": "float", "readonly": false, "cmd": "mf gen/trained_neg"},
{"path": "gen/profile", "type": "text", "readonly": false, "cmd": "mf gen/profile", "description": "syntax: <field1>:<ramp1> <field2>:<ramp2> ... (<ramp2> is the ramp limit from <field1> to <field2>)"},
{"path": "gen/profile_training", "type": "text", "readonly": false, "cmd": "mf gen/profile_training", "description": "syntax: <field1>:<ramp1> <field2>:<ramp2> ... (<ramp2> is the ramp limit from <field1> to <field2>)"},
{"path": "gen/limit", "type": "float", "readonly": false, "cmd": "mf gen/limit"},
{"path": "gen/bipolar", "type": "bool", "readonly": false, "cmd": "mf gen/bipolar"},
{"path": "ips", "type": "float", "kids": 17},
{"path": "ips/ramp_slow", "type": "float", "readonly": false, "cmd": "mf ips/ramp_slow", "description": "ramp rate for coils Tesla/min."},
{"path": "ips/ramp_fast", "type": "float", "description": "ramp rate for leads Tesla/min."},
{"path": "ips/set_field", "type": "float", "readonly": false, "cmd": "mf ips/set_field"},
{"path": "ips/heater", "type": "bool", "readonly": false, "cmd": "mf ips/heater"},
{"path": "ips/ramp_state", "type": "enum", "enum": {"hold": 0, "to_zero": 1, "to_set": 2, "clamp": 3}, "readonly": false, "cmd": "mf ips/ramp_state"},
{"path": "ips/leads_set", "type": "float", "description": "calculated current in the leads, converted to Tesla"},
{"path": "ips/show_internals", "type": "bool", "readonly": false, "cmd": "mf ips/show_internals"},
{"path": "ips/leads_meas", "type": "float", "description": "measured current in the leads, converted to Tesla"},
{"path": "ips/slave1", "type": "float"},
{"path": "ips/slave2", "type": "float"},
{"path": "ips/slave3", "type": "float"},
{"path": "ips/volt", "type": "float"},
{"path": "ips/symode", "type": "text"},
{"path": "ips/engineering_password", "type": "text", "readonly": false, "cmd": "mf ips/engineering_password"},
{"path": "ips/atob", "type": "float", "readonly": false, "cmd": "mf ips/atob", "description": "Amp/Tesla"},
{"path": "ips/inductance", "type": "float", "readonly": false, "cmd": "mf ips/inductance", "description": "henries"},
{"path": "ips/switch_heater_current", "type": "float", "readonly": false, "cmd": "mf ips/switch_heater_current", "description": "switch heater current [mA]"}]},
"lev": {"base": "/lev", "params": [
{"path": "", "type": "float", "kids": 4},
{"path": "send", "type": "text", "readonly": false, "cmd": "lev send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "mode", "type": "enum", "enum": {"slow": 0, "fast": 1}, "readonly": false, "cmd": "lev mode"},
{"path": "n2", "type": "float"}]},
"ln2fill": {"base": "/ln2fill", "params": [
{"path": "", "type": "enum", "enum": {"watching": 0, "filling": 1, "inactive": 2, "manualfill": 3}, "readonly": false, "cmd": "ln2fill", "kids": 14},
{"path": "send", "type": "text", "readonly": false, "cmd": "ln2fill send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "state", "type": "text"},
{"path": "readlevel", "type": "text", "readonly": false, "cmd": "ln2fill readlevel", "visibility": 3},
{"path": "lowlevel", "type": "float", "readonly": false, "cmd": "ln2fill lowlevel"},
{"path": "highlevel", "type": "float", "readonly": false, "cmd": "ln2fill highlevel"},
{"path": "smooth", "type": "float"},
{"path": "minfillminutes", "type": "float", "readonly": false, "cmd": "ln2fill minfillminutes"},
{"path": "maxfillminutes", "type": "float", "readonly": false, "cmd": "ln2fill maxfillminutes"},
{"path": "minholdhours", "type": "float", "readonly": false, "cmd": "ln2fill minholdhours"},
{"path": "maxholdhours", "type": "float", "readonly": false, "cmd": "ln2fill maxholdhours"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "ln2fill tolerance"},
{"path": "badreadingminutes", "type": "float", "readonly": false, "cmd": "ln2fill badreadingminutes"},
{"path": "tubecoolingminutes", "type": "float", "readonly": false, "cmd": "ln2fill tubecoolingminutes"}]},
"hefill": {"base": "/hefill", "params": [
{"path": "", "type": "enum", "enum": {"watching": 0, "filling": 1, "inactive": 2, "manualfill": 3}, "readonly": false, "cmd": "hefill", "kids": 16},
{"path": "send", "type": "text", "readonly": false, "cmd": "hefill send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "state", "type": "text"},
{"path": "readlevel", "type": "text", "readonly": false, "cmd": "hefill readlevel", "visibility": 3},
{"path": "lowlevel", "type": "float", "readonly": false, "cmd": "hefill lowlevel"},
{"path": "highlevel", "type": "float", "readonly": false, "cmd": "hefill highlevel"},
{"path": "smooth", "type": "float"},
{"path": "minfillminutes", "type": "float", "readonly": false, "cmd": "hefill minfillminutes"},
{"path": "maxfillminutes", "type": "float", "readonly": false, "cmd": "hefill maxfillminutes"},
{"path": "minholdhours", "type": "float", "readonly": false, "cmd": "hefill minholdhours"},
{"path": "maxholdhours", "type": "float", "readonly": false, "cmd": "hefill maxholdhours"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "hefill tolerance"},
{"path": "badreadingminutes", "type": "float", "readonly": false, "cmd": "hefill badreadingminutes"},
{"path": "tubecoolingminutes", "type": "float", "readonly": false, "cmd": "hefill tubecoolingminutes"},
{"path": "vessellimit", "type": "float", "readonly": false, "cmd": "hefill vessellimit"},
{"path": "vext", "type": "float"}]},
"table": {"base": "/table", "params": [
{"path": "", "type": "none", "kids": 17},
{"path": "send", "type": "text", "readonly": false, "cmd": "table send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "fix_tt_set_prop", "type": "bool", "readonly": false, "cmd": "table fix_tt_set_prop"},
{"path": "val_tt_set_prop", "type": "float"},
{"path": "tbl_tt_set_prop", "type": "text", "readonly": false, "cmd": "table tbl_tt_set_prop", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_set_integ", "type": "bool", "readonly": false, "cmd": "table fix_tt_set_integ"},
{"path": "val_tt_set_integ", "type": "float"},
{"path": "tbl_tt_set_integ", "type": "text", "readonly": false, "cmd": "table tbl_tt_set_integ", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_int2", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_int2"},
{"path": "val_tt_dblctrl_int2", "type": "float"},
{"path": "tbl_tt_dblctrl_int2", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_int2", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_prop_up", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_prop_up"},
{"path": "val_tt_dblctrl_prop_up", "type": "float"},
{"path": "tbl_tt_dblctrl_prop_up", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_prop_up", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_prop_lo", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_prop_lo"},
{"path": "val_tt_dblctrl_prop_lo", "type": "float"},
{"path": "tbl_tt_dblctrl_prop_lo", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_prop_lo", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."}]}}

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{"tt": {"base": "/tt", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run tt", "description": "tt", "kids": 18},
{"path": "send", "type": "text", "readonly": false, "cmd": "tt send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "tt is_running", "visibility": 3},
{"path": "mainloop", "type": "text", "readonly": false, "cmd": "tt mainloop", "visibility": 3},
{"path": "target", "type": "float"},
{"path": "running", "type": "int"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "tt tolerance"},
{"path": "maxwait", "type": "float", "readonly": false, "cmd": "tt maxwait"},
{"path": "settle", "type": "float", "readonly": false, "cmd": "tt settle"},
{"path": "log", "type": "text", "readonly": false, "cmd": "tt log", "visibility": 3, "kids": 4},
{"path": "log/mean", "type": "float", "visibility": 3},
{"path": "log/m2", "type": "float", "visibility": 3},
{"path": "log/stddev", "type": "float", "visibility": 3},
{"path": "log/n", "type": "float", "visibility": 3},
{"path": "dblctrl", "type": "bool", "readonly": false, "cmd": "tt dblctrl", "kids": 9},
{"path": "dblctrl/tshift", "type": "float", "readonly": false, "cmd": "tt dblctrl/tshift"},
{"path": "dblctrl/mode", "type": "enum", "enum": {"disabled": -1, "inactive": 0, "stable": 1, "up": 2, "down": 3}, "readonly": false, "cmd": "tt dblctrl/mode"},
{"path": "dblctrl/shift_up", "type": "float"},
{"path": "dblctrl/shift_lo", "type": "float"},
{"path": "dblctrl/t_min", "type": "float"},
{"path": "dblctrl/t_max", "type": "float"},
{"path": "dblctrl/int2", "type": "float", "readonly": false, "cmd": "tt dblctrl/int2"},
{"path": "dblctrl/prop_up", "type": "float", "readonly": false, "cmd": "tt dblctrl/prop_up"},
{"path": "dblctrl/prop_lo", "type": "float", "readonly": false, "cmd": "tt dblctrl/prop_lo"},
{"path": "tm", "type": "float", "kids": 4},
{"path": "tm/curve", "type": "text", "readonly": false, "cmd": "tt tm/curve", "kids": 1},
{"path": "tm/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt tm/curve/points", "visibility": 3},
{"path": "tm/alarm", "type": "float", "readonly": false, "cmd": "tt tm/alarm"},
{"path": "tm/stddev", "type": "float"},
{"path": "tm/raw", "type": "float"},
{"path": "ts", "type": "float", "kids": 4},
{"path": "ts/curve", "type": "text", "readonly": false, "cmd": "tt ts/curve", "kids": 1},
{"path": "ts/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt ts/curve/points", "visibility": 3},
{"path": "ts/alarm", "type": "float", "readonly": false, "cmd": "tt ts/alarm"},
{"path": "ts/stddev", "type": "float"},
{"path": "ts/raw", "type": "float"},
{"path": "ts_2", "type": "float", "visibility": 3, "kids": 4},
{"path": "ts_2/curve", "type": "text", "readonly": false, "cmd": "tt ts_2/curve", "visibility": 3, "kids": 1},
{"path": "ts_2/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt ts_2/curve/points", "visibility": 3},
{"path": "ts_2/alarm", "type": "float", "readonly": false, "cmd": "tt ts_2/alarm", "visibility": 3},
{"path": "ts_2/stddev", "type": "float", "visibility": 3},
{"path": "ts_2/raw", "type": "float", "visibility": 3},
{"path": "set", "type": "float", "readonly": false, "cmd": "tt set", "kids": 18},
{"path": "set/mode", "type": "enum", "enum": {"disabled": -1, "off": 0, "controlling": 1, "manual": 2}, "readonly": false, "cmd": "tt set/mode"},
{"path": "set/reg", "type": "float"},
{"path": "set/ramp", "type": "float", "readonly": false, "cmd": "tt set/ramp", "description": "maximum ramp in K/min (0: ramp off)"},
{"path": "set/wramp", "type": "float", "readonly": false, "cmd": "tt set/wramp"},
{"path": "set/smooth", "type": "float", "readonly": false, "cmd": "tt set/smooth", "description": "smooth time (minutes)"},
{"path": "set/channel", "type": "text", "readonly": false, "cmd": "tt set/channel"},
{"path": "set/limit", "type": "float", "readonly": false, "cmd": "tt set/limit"},
{"path": "set/resist", "type": "float", "readonly": false, "cmd": "tt set/resist"},
{"path": "set/maxheater", "type": "text", "readonly": false, "cmd": "tt set/maxheater", "description": "maximum heater limit, units should be given without space: W, mW, A, mA"},
{"path": "set/linearpower", "type": "float", "readonly": false, "cmd": "tt set/linearpower", "description": "when not 0, it is the maximum effective power, and the power is linear to the heater output"},
{"path": "set/maxpowerlim", "type": "float", "description": "the maximum power limit (before any booster or converter)"},
{"path": "set/maxpower", "type": "float", "readonly": false, "cmd": "tt set/maxpower", "description": "maximum power [W]"},
{"path": "set/maxcurrent", "type": "float", "description": "the maximum current before any booster or converter"},
{"path": "set/power", "type": "float"},
{"path": "set/prop", "type": "float", "readonly": false, "cmd": "tt set/prop", "description": "bigger means more gain"},
{"path": "set/integ", "type": "float", "readonly": false, "cmd": "tt set/integ", "description": "bigger means faster"},
{"path": "set/deriv", "type": "float", "readonly": false, "cmd": "tt set/deriv"},
{"path": "setsamp", "type": "float", "readonly": false, "cmd": "tt setsamp", "kids": 18},
{"path": "setsamp/mode", "type": "enum", "enum": {"disabled": -1, "off": 0, "controlling": 1, "manual": 2}, "readonly": false, "cmd": "tt setsamp/mode"},
{"path": "setsamp/reg", "type": "float"},
{"path": "setsamp/ramp", "type": "float", "readonly": false, "cmd": "tt setsamp/ramp", "description": "maximum ramp in K/min (0: ramp off)"},
{"path": "setsamp/wramp", "type": "float", "readonly": false, "cmd": "tt setsamp/wramp"},
{"path": "setsamp/smooth", "type": "float", "readonly": false, "cmd": "tt setsamp/smooth", "description": "smooth time (minutes)"},
{"path": "setsamp/channel", "type": "text", "readonly": false, "cmd": "tt setsamp/channel"},
{"path": "setsamp/limit", "type": "float", "readonly": false, "cmd": "tt setsamp/limit"},
{"path": "setsamp/resist", "type": "float", "readonly": false, "cmd": "tt setsamp/resist"},
{"path": "setsamp/maxheater", "type": "text", "readonly": false, "cmd": "tt setsamp/maxheater", "description": "maximum heater limit, units should be given without space: W, mW, A, mA"},
{"path": "setsamp/linearpower", "type": "float", "readonly": false, "cmd": "tt setsamp/linearpower", "description": "when not 0, it is the maximum effective power, and the power is linear to the heater output"},
{"path": "setsamp/maxpowerlim", "type": "float", "description": "the maximum power limit (before any booster or converter)"},
{"path": "setsamp/maxpower", "type": "float", "readonly": false, "cmd": "tt setsamp/maxpower", "description": "maximum power [W]"},
{"path": "setsamp/maxcurrent", "type": "float", "description": "the maximum current before any booster or converter"},
{"path": "setsamp/power", "type": "float"},
{"path": "setsamp/prop", "type": "float", "readonly": false, "cmd": "tt setsamp/prop", "description": "bigger means more gain"},
{"path": "setsamp/integ", "type": "float", "readonly": false, "cmd": "tt setsamp/integ", "description": "bigger means faster"},
{"path": "setsamp/deriv", "type": "float", "readonly": false, "cmd": "tt setsamp/deriv"},
{"path": "voltage/manualpower", "type": "float", "readonly": false, "cmd": "tt voltage/manualpower"},
{"path": "display", "type": "text", "readonly": false, "cmd": "tt display"},
{"path": "remote", "type": "bool"}]},
"cc": {"base": "/cc", "params": [
{"path": "", "type": "bool", "kids": 96},
{"path": "send", "type": "text", "readonly": false, "cmd": "cc send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "autodevice", "type": "bool", "readonly": false, "cmd": "cc autodevice"},
{"path": "fav", "type": "bool", "readonly": false, "cmd": "cc fav"},
{"path": "f", "type": "float"},
{"path": "fs", "type": "enum", "enum": {"ok": 0, "no_sens": 1}, "readonly": false, "cmd": "cc fs"},
{"path": "mav", "type": "bool", "readonly": false, "cmd": "cc mav"},
{"path": "fm", "type": "enum", "enum": {"idle": 0, "opening": 1, "closing": 2, "opened": 3, "closed": 4, "no_motor": 5}},
{"path": "fa", "type": "enum", "enum": {"fixed": 0, "controlled": 1, "automatic": 2, "offline": 3}, "readonly": false, "cmd": "cc fa"},
{"path": "mp", "type": "float", "readonly": false, "cmd": "cc mp"},
{"path": "msp", "type": "float"},
{"path": "mmp", "type": "float"},
{"path": "mc", "type": "float", "readonly": false, "cmd": "cc mc"},
{"path": "mfc", "type": "float", "readonly": false, "cmd": "cc mfc"},
{"path": "moc", "type": "float", "readonly": false, "cmd": "cc moc"},
{"path": "mtc", "type": "float", "readonly": false, "cmd": "cc mtc"},
{"path": "mtl", "type": "float"},
{"path": "mft", "type": "float", "readonly": false, "cmd": "cc mft"},
{"path": "mt", "type": "float"},
{"path": "mo", "type": "float"},
{"path": "mcr", "type": "float"},
{"path": "mot", "type": "float"},
{"path": "mw", "type": "float", "readonly": false, "cmd": "cc mw", "description": "correction pulse after automatic open"},
{"path": "hav", "type": "bool", "readonly": false, "cmd": "cc hav"},
{"path": "h", "type": "float"},
{"path": "hr", "type": "float"},
{"path": "hc", "type": "float"},
{"path": "hu", "type": "float"},
{"path": "hh", "type": "float", "readonly": false, "cmd": "cc hh"},
{"path": "hl", "type": "float", "readonly": false, "cmd": "cc hl"},
{"path": "htf", "type": "float", "readonly": false, "cmd": "cc htf", "description": "meas. period in fast mode"},
{"path": "hts", "type": "float", "readonly": false, "cmd": "cc hts", "description": "meas. period in slow mode"},
{"path": "hd", "type": "float", "readonly": false, "cmd": "cc hd"},
{"path": "hwr", "type": "float", "readonly": false, "cmd": "cc hwr"},
{"path": "hem", "type": "float", "readonly": false, "cmd": "cc hem", "description": "sensor length in mm from top to empty pos."},
{"path": "hfu", "type": "float", "readonly": false, "cmd": "cc hfu", "description": "sensor length in mm from top to full pos."},
{"path": "hcd", "type": "enum", "enum": {"stop": 0, "fill": 1, "off": 2, "auto": 3, "manual": 7}, "readonly": false, "cmd": "cc hcd"},
{"path": "hv", "type": "enum", "enum": {"fill_valve_off": 0, "filling": 1, "no_fill_valve": 2, "timeout": 3, "timeout1": 4}},
{"path": "hsf", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "ha", "type": "bool", "readonly": false, "cmd": "cc ha"},
{"path": "hm", "type": "bool"},
{"path": "hf", "type": "enum", "enum": {"slow": 0, "fast": 1}, "readonly": false, "cmd": "cc hf"},
{"path": "hbe", "type": "bool", "readonly": false, "cmd": "cc hbe"},
{"path": "hmf", "type": "float"},
{"path": "hms", "type": "float"},
{"path": "hit", "type": "float", "readonly": false, "cmd": "cc hit"},
{"path": "hft", "type": "int", "readonly": false, "cmd": "cc hft"},
{"path": "hea", "type": "enum", "enum": {"0": 0, "1": 1, "6": 6}, "readonly": false, "cmd": "cc hea"},
{"path": "hch", "type": "int", "readonly": false, "cmd": "cc hch"},
{"path": "hwr0", "type": "float", "readonly": false, "cmd": "cc hwr0"},
{"path": "hem0", "type": "float", "readonly": false, "cmd": "cc hem0", "description": "sensor length in mm from top to empty pos."},
{"path": "hfu0", "type": "float", "readonly": false, "cmd": "cc hfu0", "description": "sensor length in mm from top to full pos."},
{"path": "hd0", "type": "float", "readonly": false, "cmd": "cc hd0", "description": "external sensor drive current (mA)"},
{"path": "h0", "type": "float"},
{"path": "hs0", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h1", "type": "float"},
{"path": "hs1", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h2", "type": "float"},
{"path": "hs2", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h3", "type": "float"},
{"path": "hs3", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h4", "type": "float"},
{"path": "hs4", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h5", "type": "float"},
{"path": "hs5", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "hfb", "type": "float"},
{"path": "nav", "type": "bool", "readonly": false, "cmd": "cc nav"},
{"path": "nu", "type": "float"},
{"path": "nl", "type": "float"},
{"path": "nth", "type": "float", "readonly": false, "cmd": "cc nth"},
{"path": "ntc", "type": "float", "readonly": false, "cmd": "cc ntc"},
{"path": "ntm", "type": "float", "readonly": false, "cmd": "cc ntm"},
{"path": "ns", "type": "enum", "enum": {"sens_ok": 0, "no_sens": 1, "short_circuit": 2, "upside_down": 3, "sens_warm": 4, "empty": 5}},
{"path": "na", "type": "bool", "readonly": false, "cmd": "cc na"},
{"path": "nv", "type": "enum", "enum": {"fill_valve_off": 0, "filling": 1, "no_fill_valve": 2, "timeout": 3, "timeout1": 4, "boost": 5}},
{"path": "nc", "type": "enum", "enum": {"stop": 0, "fill": 1, "off": 2, "auto": 3}, "readonly": false, "cmd": "cc nc"},
{"path": "nfb", "type": "float"},
{"path": "cda", "type": "float"},
{"path": "cdb", "type": "float"},
{"path": "cba", "type": "float"},
{"path": "cbb", "type": "float"},
{"path": "cvs", "type": "int"},
{"path": "csp", "type": "int"},
{"path": "cdv", "type": "text", "readonly": false, "cmd": "cc cdv"},
{"path": "cic", "type": "text", "readonly": false, "cmd": "cc cic"},
{"path": "cin", "type": "text"},
{"path": "cds", "type": "enum", "enum": {"local": 0, "remote": 1, "loading": 2, "by_code": 3, "by_touch": 4}, "readonly": false, "cmd": "cc cds"},
{"path": "timing", "type": "bool", "readonly": false, "cmd": "cc timing"},
{"path": "tc", "type": "float", "visibility": 3},
{"path": "tn", "type": "float", "visibility": 3},
{"path": "th", "type": "float", "visibility": 3},
{"path": "tf", "type": "float", "visibility": 3},
{"path": "tm", "type": "float", "visibility": 3},
{"path": "tv", "type": "float", "visibility": 3},
{"path": "tq", "type": "float", "visibility": 3},
{"path": "bdl", "type": "float", "readonly": false, "cmd": "cc bdl"}]},
"nv": {"base": "/nv", "params": [
{"path": "", "type": "enum", "enum": {"fixed": 0, "controlled": 1, "automatic": 2, "close": 3, "open": 4}, "readonly": false, "cmd": "nv", "kids": 11},
{"path": "send", "type": "text", "readonly": false, "cmd": "nv send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "motstat", "type": "enum", "enum": {"idle": 0, "opening": 1, "closing": 2, "opened": 3, "closed": 4, "no_motor": 5}},
{"path": "flow", "type": "float"},
{"path": "set", "type": "float", "readonly": false, "cmd": "nv set"},
{"path": "flowmax", "type": "float", "readonly": false, "cmd": "nv flowmax"},
{"path": "flowp", "type": "float"},
{"path": "span", "type": "float"},
{"path": "ctrl", "type": "none", "kids": 13},
{"path": "ctrl/regtext", "type": "text"},
{"path": "ctrl/prop_o", "type": "float", "readonly": false, "cmd": "nv ctrl/prop_o", "description": "prop [sec/mbar] when opening. above 4 mbar a 10 times lower value is used"},
{"path": "ctrl/prop_c", "type": "float", "readonly": false, "cmd": "nv ctrl/prop_c", "description": "prop [sec/mbar] when closing. above 4 mbar a 10 times lower value is used"},
{"path": "ctrl/deriv_o", "type": "float", "readonly": false, "cmd": "nv ctrl/deriv_o", "description": "convergence target time [sec] when opening"},
{"path": "ctrl/deriv_c", "type": "float", "readonly": false, "cmd": "nv ctrl/deriv_c", "description": "convergence target time [sec] when closing"},
{"path": "ctrl/minpulse_o", "type": "float", "readonly": false, "cmd": "nv ctrl/minpulse_o", "description": "minimum close pulse [sec]"},
{"path": "ctrl/minpulse_c", "type": "float", "readonly": false, "cmd": "nv ctrl/minpulse_c", "description": "standard close pulse [sec]"},
{"path": "ctrl/hystpulse_o", "type": "float", "readonly": false, "cmd": "nv ctrl/hystpulse_o", "description": "motor pulse to overcome hysteresis when opening"},
{"path": "ctrl/hystpulse_c", "type": "float", "readonly": false, "cmd": "nv ctrl/hystpulse_c", "description": "motor pulse to overcome hysteresis when closing"},
{"path": "ctrl/tol", "type": "float", "readonly": false, "cmd": "nv ctrl/tol", "description": "valid below 3 mbar"},
{"path": "ctrl/tolhigh", "type": "float", "readonly": false, "cmd": "nv ctrl/tolhigh", "description": "valid above 4 mbar"},
{"path": "ctrl/openpulse", "type": "float", "readonly": false, "cmd": "nv ctrl/openpulse", "description": "time to open from completely closed to a significant opening"},
{"path": "ctrl/adjust_minpulse", "type": "bool", "readonly": false, "cmd": "nv ctrl/adjust_minpulse", "description": "adjust minpulse automatically"},
{"path": "autoflow", "type": "none", "kids": 24},
{"path": "autoflow/suspended", "type": "bool", "readonly": false, "cmd": "nv autoflow/suspended"},
{"path": "autoflow/prop", "type": "float", "readonly": false, "cmd": "nv autoflow/prop"},
{"path": "autoflow/flowstd", "type": "float", "readonly": false, "cmd": "nv autoflow/flowstd"},
{"path": "autoflow/flowlim", "type": "float", "readonly": false, "cmd": "nv autoflow/flowlim"},
{"path": "autoflow/smooth", "type": "float", "readonly": false, "cmd": "nv autoflow/smooth"},
{"path": "autoflow/difSize", "type": "float", "readonly": false, "cmd": "nv autoflow/difSize"},
{"path": "autoflow/difRange", "type": "float", "readonly": false, "cmd": "nv autoflow/difRange"},
{"path": "autoflow/flowSize", "type": "float", "readonly": false, "cmd": "nv autoflow/flowSize"},
{"path": "autoflow/convTime", "type": "float", "readonly": false, "cmd": "nv autoflow/convTime"},
{"path": "autoflow/Tmin", "type": "float", "readonly": false, "cmd": "nv autoflow/Tmin"},
{"path": "autoflow/script", "type": "text", "readonly": false, "cmd": "nv autoflow/script"},
{"path": "autoflow/getTemp", "type": "text", "readonly": false, "cmd": "nv autoflow/getTemp"},
{"path": "autoflow/getTset", "type": "text", "readonly": false, "cmd": "nv autoflow/getTset"},
{"path": "autoflow/getFlow", "type": "text", "readonly": false, "cmd": "nv autoflow/getFlow"},
{"path": "autoflow/difBuf", "type": "text"},
{"path": "autoflow/flowBuf", "type": "text"},
{"path": "autoflow/flowset", "type": "float"},
{"path": "autoflow/flowmin", "type": "float"},
{"path": "autoflow/flowmax", "type": "float"},
{"path": "autoflow/difmin", "type": "float"},
{"path": "autoflow/difmax", "type": "float"},
{"path": "autoflow/setmin", "type": "float"},
{"path": "autoflow/setmax", "type": "float"},
{"path": "autoflow/flowtarget", "type": "float"},
{"path": "calib", "type": "none", "kids": 2},
{"path": "calib/ln_per_min_per_mbar", "type": "float", "readonly": false, "cmd": "nv calib/ln_per_min_per_mbar"},
{"path": "calib/mbar_offset", "type": "float", "readonly": false, "cmd": "nv calib/mbar_offset"}]},
"hefill": {"base": "/hefill", "params": [
{"path": "", "type": "enum", "enum": {"watching": 0, "filling": 1, "inactive": 2, "manualfill": 3}, "readonly": false, "cmd": "hefill", "kids": 16},
{"path": "send", "type": "text", "readonly": false, "cmd": "hefill send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "state", "type": "text"},
{"path": "readlevel", "type": "text", "readonly": false, "cmd": "hefill readlevel", "visibility": 3},
{"path": "lowlevel", "type": "float", "readonly": false, "cmd": "hefill lowlevel"},
{"path": "highlevel", "type": "float", "readonly": false, "cmd": "hefill highlevel"},
{"path": "smooth", "type": "float"},
{"path": "minfillminutes", "type": "float", "readonly": false, "cmd": "hefill minfillminutes"},
{"path": "maxfillminutes", "type": "float", "readonly": false, "cmd": "hefill maxfillminutes"},
{"path": "minholdhours", "type": "float", "readonly": false, "cmd": "hefill minholdhours"},
{"path": "maxholdhours", "type": "float", "readonly": false, "cmd": "hefill maxholdhours"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "hefill tolerance"},
{"path": "badreadingminutes", "type": "float", "readonly": false, "cmd": "hefill badreadingminutes"},
{"path": "tubecoolingminutes", "type": "float", "readonly": false, "cmd": "hefill tubecoolingminutes"},
{"path": "vessellimit", "type": "float", "readonly": false, "cmd": "hefill vessellimit"},
{"path": "vext", "type": "float"}]},
"hepump": {"base": "/hepump", "params": [
{"path": "", "type": "enum", "enum": {"neodry": 8, "xds35_auto": 0, "xds35_manual": 1, "sv65": 2, "other": 3, "no": -1}, "readonly": false, "cmd": "hepump", "description": "xds35: scroll pump, sv65: leybold", "kids": 10},
{"path": "send", "type": "text", "readonly": false, "cmd": "hepump send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "running", "type": "bool", "readonly": false, "cmd": "hepump running"},
{"path": "eco", "type": "bool", "readonly": false, "cmd": "hepump eco"},
{"path": "auto", "type": "bool", "readonly": false, "cmd": "hepump auto"},
{"path": "valve", "type": "enum", "enum": {"closed": 0, "closing": 1, "opening": 2, "opened": 3, "undefined": 4}, "readonly": false, "cmd": "hepump valve"},
{"path": "eco_t_lim", "type": "float", "readonly": false, "cmd": "hepump eco_t_lim", "description": "switch off eco mode when T_set < eco_t_lim and T < eco_t_lim * 2"},
{"path": "calib", "type": "float", "readonly": false, "cmd": "hepump calib", "visibility": 3},
{"path": "health", "type": "float"}]},
"hemot": {"base": "/hepump/hemot", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run hemot", "kids": 30},
{"path": "send", "type": "text", "readonly": false, "cmd": "hemot send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "hemot is_running", "visibility": 3},
{"path": "pos", "type": "float"},
{"path": "encoder", "type": "float"},
{"path": "zero", "type": "float", "readonly": false, "cmd": "hemot zero"},
{"path": "lowerlimit", "type": "float", "readonly": false, "cmd": "hemot lowerlimit"},
{"path": "upperlimit", "type": "float", "readonly": false, "cmd": "hemot upperlimit"},
{"path": "disablelimits", "type": "bool", "readonly": false, "cmd": "hemot disablelimits"},
{"path": "verbose", "type": "bool", "readonly": false, "cmd": "hemot verbose"},
{"path": "target", "type": "float"},
{"path": "runstate", "type": "enum", "enum": {"idle": 0, "running": 1, "finished": 2, "error": 3}},
{"path": "precision", "type": "float", "readonly": false, "cmd": "hemot precision"},
{"path": "maxencdif", "type": "float", "readonly": false, "cmd": "hemot maxencdif"},
{"path": "id", "type": "float", "readonly": false, "cmd": "hemot id"},
{"path": "pump_number", "type": "float", "readonly": false, "cmd": "hemot pump_number"},
{"path": "init", "type": "float", "readonly": false, "cmd": "hemot init"},
{"path": "maxspeed", "type": "float", "readonly": false, "cmd": "hemot maxspeed"},
{"path": "acceleration", "type": "float", "readonly": false, "cmd": "hemot acceleration"},
{"path": "maxcurrent", "type": "float", "readonly": false, "cmd": "hemot maxcurrent"},
{"path": "standbycurrent", "type": "float", "readonly": false, "cmd": "hemot standbycurrent"},
{"path": "freewheeling", "type": "bool", "readonly": false, "cmd": "hemot freewheeling"},
{"path": "output0", "type": "bool", "readonly": false, "cmd": "hemot output0"},
{"path": "output1", "type": "bool", "readonly": false, "cmd": "hemot output1"},
{"path": "input3", "type": "bool"},
{"path": "pullup", "type": "float", "readonly": false, "cmd": "hemot pullup"},
{"path": "nopumpfeedback", "type": "bool", "readonly": false, "cmd": "hemot nopumpfeedback"},
{"path": "eeprom", "type": "enum", "enum": {"ok": 0, "dirty": 1, "save": 2, "load": 3}, "readonly": false, "cmd": "hemot eeprom"},
{"path": "customadr", "type": "text", "readonly": false, "cmd": "hemot customadr"},
{"path": "custompar", "type": "float", "readonly": false, "cmd": "hemot custompar"}]},
"nvflow": {"base": "/nvflow", "params": [
{"path": "", "type": "float", "kids": 7},
{"path": "send", "type": "text", "readonly": false, "cmd": "nvflow send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "stddev", "type": "float"},
{"path": "nsamples", "type": "int", "readonly": false, "cmd": "nvflow nsamples"},
{"path": "offset", "type": "float", "readonly": false, "cmd": "nvflow offset"},
{"path": "scale", "type": "float", "readonly": false, "cmd": "nvflow scale"},
{"path": "save", "type": "bool", "readonly": false, "cmd": "nvflow save", "description": "unchecked: current calib is not saved. set checked: save calib"}]},
"ln2fill": {"base": "/ln2fill", "params": [
{"path": "", "type": "enum", "enum": {"watching": 0, "filling": 1, "inactive": 2, "manualfill": 3}, "readonly": false, "cmd": "ln2fill", "kids": 14},
{"path": "send", "type": "text", "readonly": false, "cmd": "ln2fill send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "state", "type": "text"},
{"path": "readlevel", "type": "text", "readonly": false, "cmd": "ln2fill readlevel", "visibility": 3},
{"path": "lowlevel", "type": "float", "readonly": false, "cmd": "ln2fill lowlevel"},
{"path": "highlevel", "type": "float", "readonly": false, "cmd": "ln2fill highlevel"},
{"path": "smooth", "type": "float"},
{"path": "minfillminutes", "type": "float", "readonly": false, "cmd": "ln2fill minfillminutes"},
{"path": "maxfillminutes", "type": "float", "readonly": false, "cmd": "ln2fill maxfillminutes"},
{"path": "minholdhours", "type": "float", "readonly": false, "cmd": "ln2fill minholdhours"},
{"path": "maxholdhours", "type": "float", "readonly": false, "cmd": "ln2fill maxholdhours"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "ln2fill tolerance"},
{"path": "badreadingminutes", "type": "float", "readonly": false, "cmd": "ln2fill badreadingminutes"},
{"path": "tubecoolingminutes", "type": "float", "readonly": false, "cmd": "ln2fill tubecoolingminutes"}]},
"mf": {"base": "/mf", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run mf", "kids": 26},
{"path": "persmode", "type": "int", "readonly": false, "cmd": "mf persmode"},
{"path": "perswitch", "type": "int"},
{"path": "nowait", "type": "int", "readonly": false, "cmd": "mf nowait"},
{"path": "maxlimit", "type": "float", "visibility": 3},
{"path": "limit", "type": "float", "readonly": false, "cmd": "mf limit"},
{"path": "ramp", "type": "float", "readonly": false, "cmd": "mf ramp"},
{"path": "perscurrent", "type": "float", "readonly": false, "cmd": "mf perscurrent"},
{"path": "perslimit", "type": "float", "readonly": false, "cmd": "mf perslimit"},
{"path": "perswait", "type": "int", "readonly": false, "cmd": "mf perswait"},
{"path": "persdelay", "type": "int", "readonly": false, "cmd": "mf persdelay"},
{"path": "current", "type": "float"},
{"path": "measured", "type": "float"},
{"path": "voltage", "type": "float"},
{"path": "lastfield", "type": "float", "visibility": 3},
{"path": "ampRamp", "type": "float", "visibility": 3},
{"path": "inductance", "type": "float", "visibility": 3},
{"path": "trainedTo", "type": "float", "readonly": false, "cmd": "mf trainedTo"},
{"path": "trainMode", "type": "int"},
{"path": "external", "type": "int", "readonly": false, "cmd": "mf external"},
{"path": "startScript", "type": "text", "readonly": false, "cmd": "mf startScript", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "mf is_running", "visibility": 3},
{"path": "verbose", "type": "int", "readonly": false, "cmd": "mf verbose", "visibility": 3},
{"path": "driver", "type": "text", "visibility": 3},
{"path": "creationCmd", "type": "text", "visibility": 3},
{"path": "targetValue", "type": "float"},
{"path": "status", "type": "text", "readonly": false, "cmd": "mf status", "visibility": 3}]},
"lev": {"base": "/lev", "params": [
{"path": "", "type": "float", "kids": 4},
{"path": "send", "type": "text", "readonly": false, "cmd": "lev send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "mode", "type": "enum", "enum": {"slow": 0, "fast (switches to slow automatically after filling)": 1}, "readonly": false, "cmd": "lev mode"},
{"path": "n2", "type": "float"}]},
"tcoil": {"base": "/tcoil", "params": [
{"path": "", "type": "float", "kids": 11},
{"path": "send", "type": "text", "readonly": false, "cmd": "tcoil send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "excitation", "type": "float", "readonly": false, "cmd": "tcoil excitation", "visibility": 3},
{"path": "ta", "type": "float", "kids": 3},
{"path": "ta/enable", "type": "bool", "readonly": false, "cmd": "tcoil ta/enable"},
{"path": "ta/r", "type": "float"},
{"path": "ta/curve", "type": "text", "readonly": false, "cmd": "tcoil ta/curve", "kids": 3},
{"path": "ta/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil ta/curve/adjust"},
{"path": "ta/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil ta/curve/points"},
{"path": "ta/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil ta/curve/cpoints"},
{"path": "tb", "type": "float", "kids": 3},
{"path": "tb/enable", "type": "bool", "readonly": false, "cmd": "tcoil tb/enable"},
{"path": "tb/r", "type": "float"},
{"path": "tb/curve", "type": "text", "readonly": false, "cmd": "tcoil tb/curve", "kids": 3},
{"path": "tb/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil tb/curve/adjust"},
{"path": "tb/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil tb/curve/points"},
{"path": "tb/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil tb/curve/cpoints"},
{"path": "td", "type": "float", "visibility": 3, "kids": 3},
{"path": "td/enable", "type": "bool", "readonly": false, "cmd": "tcoil td/enable"},
{"path": "td/r", "type": "float"},
{"path": "td/curve", "type": "text", "readonly": false, "cmd": "tcoil td/curve", "kids": 3},
{"path": "td/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil td/curve/adjust"},
{"path": "td/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil td/curve/points"},
{"path": "td/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil td/curve/cpoints"},
{"path": "ref", "type": "float", "visibility": 3, "kids": 3},
{"path": "ref/enable", "type": "bool", "readonly": false, "cmd": "tcoil ref/enable"},
{"path": "ref/r", "type": "float"},
{"path": "ref/curve", "type": "text", "readonly": false, "cmd": "tcoil ref/curve", "kids": 3},
{"path": "ref/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil ref/curve/adjust"},
{"path": "ref/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil ref/curve/points"},
{"path": "ref/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil ref/curve/cpoints"},
{"path": "tc", "type": "float", "visibility": 3, "kids": 3},
{"path": "tc/enable", "type": "bool", "readonly": false, "cmd": "tcoil tc/enable"},
{"path": "tc/r", "type": "float"},
{"path": "tc/curve", "type": "text", "readonly": false, "cmd": "tcoil tc/curve", "kids": 3},
{"path": "tc/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil tc/curve/adjust"},
{"path": "tc/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil tc/curve/points"},
{"path": "tc/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil tc/curve/cpoints"},
{"path": "ext", "type": "float", "visibility": 3},
{"path": "com", "type": "float", "visibility": 3},
{"path": "gnd", "type": "float", "visibility": 3}]},
"table": {"base": "/table", "params": [
{"path": "", "type": "none", "kids": 17},
{"path": "send", "type": "text", "readonly": false, "cmd": "table send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "fix_tt_set_prop", "type": "bool", "readonly": false, "cmd": "table fix_tt_set_prop"},
{"path": "val_tt_set_prop", "type": "float"},
{"path": "tbl_tt_set_prop", "type": "text", "readonly": false, "cmd": "table tbl_tt_set_prop", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_set_integ", "type": "bool", "readonly": false, "cmd": "table fix_tt_set_integ"},
{"path": "val_tt_set_integ", "type": "float"},
{"path": "tbl_tt_set_integ", "type": "text", "readonly": false, "cmd": "table tbl_tt_set_integ", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_int2", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_int2"},
{"path": "val_tt_dblctrl_int2", "type": "float"},
{"path": "tbl_tt_dblctrl_int2", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_int2", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_prop_up", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_prop_up"},
{"path": "val_tt_dblctrl_prop_up", "type": "float"},
{"path": "tbl_tt_dblctrl_prop_up", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_prop_up", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_prop_lo", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_prop_lo"},
{"path": "val_tt_dblctrl_prop_lo", "type": "float"},
{"path": "tbl_tt_dblctrl_prop_lo", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_prop_lo", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."}]}}

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{"tt": {"base": "/tt", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run tt", "description": "tt", "kids": 17},
{"path": "send", "type": "text", "readonly": false, "cmd": "tt send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "tt is_running", "visibility": 3},
{"path": "mainloop", "type": "text", "readonly": false, "cmd": "tt mainloop", "visibility": 3},
{"path": "target", "type": "float"},
{"path": "running", "type": "int"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "tt tolerance"},
{"path": "maxwait", "type": "float", "readonly": false, "cmd": "tt maxwait"},
{"path": "settle", "type": "float", "readonly": false, "cmd": "tt settle"},
{"path": "log", "type": "text", "readonly": false, "cmd": "tt log", "visibility": 3, "kids": 4},
{"path": "log/mean", "type": "float", "visibility": 3},
{"path": "log/m2", "type": "float", "visibility": 3},
{"path": "log/stddev", "type": "float", "visibility": 3},
{"path": "log/n", "type": "float", "visibility": 3},
{"path": "dblctrl", "type": "bool", "readonly": false, "cmd": "tt dblctrl", "kids": 9},
{"path": "dblctrl/tshift", "type": "float", "readonly": false, "cmd": "tt dblctrl/tshift"},
{"path": "dblctrl/mode", "type": "enum", "enum": {"disabled": -1, "inactive": 0, "stable": 1, "up": 2, "down": 3}, "readonly": false, "cmd": "tt dblctrl/mode"},
{"path": "dblctrl/shift_up", "type": "float"},
{"path": "dblctrl/shift_lo", "type": "float"},
{"path": "dblctrl/t_min", "type": "float"},
{"path": "dblctrl/t_max", "type": "float"},
{"path": "dblctrl/int2", "type": "float", "readonly": false, "cmd": "tt dblctrl/int2"},
{"path": "dblctrl/prop_up", "type": "float", "readonly": false, "cmd": "tt dblctrl/prop_up"},
{"path": "dblctrl/prop_lo", "type": "float", "readonly": false, "cmd": "tt dblctrl/prop_lo"},
{"path": "tm", "type": "float", "kids": 4},
{"path": "tm/curve", "type": "text", "readonly": false, "cmd": "tt tm/curve", "kids": 1},
{"path": "tm/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt tm/curve/points", "visibility": 3},
{"path": "tm/alarm", "type": "float", "readonly": false, "cmd": "tt tm/alarm"},
{"path": "tm/stddev", "type": "float"},
{"path": "tm/raw", "type": "float"},
{"path": "ts", "type": "float", "kids": 4},
{"path": "ts/curve", "type": "text", "readonly": false, "cmd": "tt ts/curve", "kids": 1},
{"path": "ts/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tt ts/curve/points", "visibility": 3},
{"path": "ts/alarm", "type": "float", "readonly": false, "cmd": "tt ts/alarm"},
{"path": "ts/stddev", "type": "float"},
{"path": "ts/raw", "type": "float"},
{"path": "set", "type": "float", "readonly": false, "cmd": "tt set", "kids": 18},
{"path": "set/mode", "type": "enum", "enum": {"disabled": -1, "off": 0, "controlling": 1, "manual": 2}, "readonly": false, "cmd": "tt set/mode"},
{"path": "set/reg", "type": "float"},
{"path": "set/ramp", "type": "float", "readonly": false, "cmd": "tt set/ramp", "description": "maximum ramp in K/min (0: ramp off)"},
{"path": "set/wramp", "type": "float", "readonly": false, "cmd": "tt set/wramp"},
{"path": "set/smooth", "type": "float", "readonly": false, "cmd": "tt set/smooth", "description": "smooth time (minutes)"},
{"path": "set/channel", "type": "text", "readonly": false, "cmd": "tt set/channel"},
{"path": "set/limit", "type": "float", "readonly": false, "cmd": "tt set/limit"},
{"path": "set/resist", "type": "float", "readonly": false, "cmd": "tt set/resist"},
{"path": "set/maxheater", "type": "text", "readonly": false, "cmd": "tt set/maxheater", "description": "maximum heater limit, units should be given without space: W, mW, A, mA"},
{"path": "set/linearpower", "type": "float", "readonly": false, "cmd": "tt set/linearpower", "description": "when not 0, it is the maximum effective power, and the power is linear to the heater output"},
{"path": "set/maxpowerlim", "type": "float", "description": "the maximum power limit (before any booster or converter)"},
{"path": "set/maxpower", "type": "float", "readonly": false, "cmd": "tt set/maxpower", "description": "maximum power [W]"},
{"path": "set/maxcurrent", "type": "float", "description": "the maximum current before any booster or converter"},
{"path": "set/manualpower", "type": "float", "readonly": false, "cmd": "tt set/manualpower"},
{"path": "set/power", "type": "float"},
{"path": "set/prop", "type": "float", "readonly": false, "cmd": "tt set/prop", "description": "bigger means more gain"},
{"path": "set/integ", "type": "float", "readonly": false, "cmd": "tt set/integ", "description": "bigger means faster"},
{"path": "set/deriv", "type": "float", "readonly": false, "cmd": "tt set/deriv"},
{"path": "setsamp", "type": "float", "readonly": false, "cmd": "tt setsamp", "kids": 18},
{"path": "setsamp/mode", "type": "enum", "enum": {"disabled": -1, "off": 0, "controlling": 1, "manual": 2}, "readonly": false, "cmd": "tt setsamp/mode"},
{"path": "setsamp/reg", "type": "float"},
{"path": "setsamp/ramp", "type": "float", "readonly": false, "cmd": "tt setsamp/ramp", "description": "maximum ramp in K/min (0: ramp off)"},
{"path": "setsamp/wramp", "type": "float", "readonly": false, "cmd": "tt setsamp/wramp"},
{"path": "setsamp/smooth", "type": "float", "readonly": false, "cmd": "tt setsamp/smooth", "description": "smooth time (minutes)"},
{"path": "setsamp/channel", "type": "text", "readonly": false, "cmd": "tt setsamp/channel"},
{"path": "setsamp/limit", "type": "float", "readonly": false, "cmd": "tt setsamp/limit"},
{"path": "setsamp/resist", "type": "float", "readonly": false, "cmd": "tt setsamp/resist"},
{"path": "setsamp/maxheater", "type": "text", "readonly": false, "cmd": "tt setsamp/maxheater", "description": "maximum heater limit, units should be given without space: W, mW, A, mA"},
{"path": "setsamp/linearpower", "type": "float", "readonly": false, "cmd": "tt setsamp/linearpower", "description": "when not 0, it is the maximum effective power, and the power is linear to the heater output"},
{"path": "setsamp/maxpowerlim", "type": "float", "description": "the maximum power limit (before any booster or converter)"},
{"path": "setsamp/maxpower", "type": "float", "readonly": false, "cmd": "tt setsamp/maxpower", "description": "maximum power [W]"},
{"path": "setsamp/maxcurrent", "type": "float", "description": "the maximum current before any booster or converter"},
{"path": "setsamp/manualpower", "type": "float", "readonly": false, "cmd": "tt setsamp/manualpower"},
{"path": "setsamp/power", "type": "float"},
{"path": "setsamp/prop", "type": "float", "readonly": false, "cmd": "tt setsamp/prop", "description": "bigger means more gain"},
{"path": "setsamp/integ", "type": "float", "readonly": false, "cmd": "tt setsamp/integ", "description": "bigger means faster"},
{"path": "setsamp/deriv", "type": "float", "readonly": false, "cmd": "tt setsamp/deriv"},
{"path": "display", "type": "text", "readonly": false, "cmd": "tt display"},
{"path": "remote", "type": "bool"}]},
"cc": {"base": "/cc", "params": [
{"path": "", "type": "bool", "kids": 96},
{"path": "send", "type": "text", "readonly": false, "cmd": "cc send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "autodevice", "type": "bool", "readonly": false, "cmd": "cc autodevice"},
{"path": "fav", "type": "bool", "readonly": false, "cmd": "cc fav"},
{"path": "f", "type": "float"},
{"path": "fs", "type": "enum", "enum": {"ok": 0, "no_sens": 1}, "readonly": false, "cmd": "cc fs"},
{"path": "mav", "type": "bool", "readonly": false, "cmd": "cc mav"},
{"path": "fm", "type": "enum", "enum": {"idle": 0, "opening": 1, "closing": 2, "opened": 3, "closed": 4, "no_motor": 5}},
{"path": "fa", "type": "enum", "enum": {"fixed": 0, "controlled": 1, "automatic": 2, "offline": 3}, "readonly": false, "cmd": "cc fa"},
{"path": "mp", "type": "float", "readonly": false, "cmd": "cc mp"},
{"path": "msp", "type": "float"},
{"path": "mmp", "type": "float"},
{"path": "mc", "type": "float", "readonly": false, "cmd": "cc mc"},
{"path": "mfc", "type": "float", "readonly": false, "cmd": "cc mfc"},
{"path": "moc", "type": "float", "readonly": false, "cmd": "cc moc"},
{"path": "mtc", "type": "float", "readonly": false, "cmd": "cc mtc"},
{"path": "mtl", "type": "float"},
{"path": "mft", "type": "float", "readonly": false, "cmd": "cc mft"},
{"path": "mt", "type": "float"},
{"path": "mo", "type": "float"},
{"path": "mcr", "type": "float"},
{"path": "mot", "type": "float"},
{"path": "mw", "type": "float", "readonly": false, "cmd": "cc mw", "description": "correction pulse after automatic open"},
{"path": "hav", "type": "bool", "readonly": false, "cmd": "cc hav"},
{"path": "h", "type": "float"},
{"path": "hr", "type": "float"},
{"path": "hc", "type": "float"},
{"path": "hu", "type": "float"},
{"path": "hh", "type": "float", "readonly": false, "cmd": "cc hh"},
{"path": "hl", "type": "float", "readonly": false, "cmd": "cc hl"},
{"path": "htf", "type": "float", "readonly": false, "cmd": "cc htf", "description": "meas. period in fast mode"},
{"path": "hts", "type": "float", "readonly": false, "cmd": "cc hts", "description": "meas. period in slow mode"},
{"path": "hd", "type": "float", "readonly": false, "cmd": "cc hd"},
{"path": "hwr", "type": "float", "readonly": false, "cmd": "cc hwr"},
{"path": "hem", "type": "float", "readonly": false, "cmd": "cc hem", "description": "sensor length in mm from top to empty pos."},
{"path": "hfu", "type": "float", "readonly": false, "cmd": "cc hfu", "description": "sensor length in mm from top to full pos."},
{"path": "hcd", "type": "enum", "enum": {"stop": 0, "fill": 1, "off": 2, "auto": 3, "manual": 7}, "readonly": false, "cmd": "cc hcd"},
{"path": "hv", "type": "enum", "enum": {"fill_valve_off": 0, "filling": 1, "no_fill_valve": 2, "timeout": 3, "timeout1": 4}},
{"path": "hsf", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "ha", "type": "bool", "readonly": false, "cmd": "cc ha"},
{"path": "hm", "type": "bool"},
{"path": "hf", "type": "enum", "enum": {"slow": 0, "fast": 1}, "readonly": false, "cmd": "cc hf"},
{"path": "hbe", "type": "bool", "readonly": false, "cmd": "cc hbe"},
{"path": "hmf", "type": "float"},
{"path": "hms", "type": "float"},
{"path": "hit", "type": "float", "readonly": false, "cmd": "cc hit"},
{"path": "hft", "type": "int", "readonly": false, "cmd": "cc hft"},
{"path": "hea", "type": "enum", "enum": {"0": 0, "1": 1, "6": 6}, "readonly": false, "cmd": "cc hea"},
{"path": "hch", "type": "int", "readonly": false, "cmd": "cc hch"},
{"path": "hwr0", "type": "float", "readonly": false, "cmd": "cc hwr0"},
{"path": "hem0", "type": "float", "readonly": false, "cmd": "cc hem0", "description": "sensor length in mm from top to empty pos."},
{"path": "hfu0", "type": "float", "readonly": false, "cmd": "cc hfu0", "description": "sensor length in mm from top to full pos."},
{"path": "hd0", "type": "float", "readonly": false, "cmd": "cc hd0", "description": "external sensor drive current (mA)"},
{"path": "h0", "type": "float"},
{"path": "hs0", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h1", "type": "float"},
{"path": "hs1", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h2", "type": "float"},
{"path": "hs2", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h3", "type": "float"},
{"path": "hs3", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h4", "type": "float"},
{"path": "hs4", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "h5", "type": "float"},
{"path": "hs5", "type": "enum", "enum": {"sens_ok": 0, "sens_warm": 1, "no_sens": 2, "timeout": 3, "not_yet_read": 4, "disabled": 5}},
{"path": "hfb", "type": "float"},
{"path": "nav", "type": "bool", "readonly": false, "cmd": "cc nav"},
{"path": "nu", "type": "float"},
{"path": "nl", "type": "float"},
{"path": "nth", "type": "float", "readonly": false, "cmd": "cc nth"},
{"path": "ntc", "type": "float", "readonly": false, "cmd": "cc ntc"},
{"path": "ntm", "type": "float", "readonly": false, "cmd": "cc ntm"},
{"path": "ns", "type": "enum", "enum": {"sens_ok": 0, "no_sens": 1, "short_circuit": 2, "upside_down": 3, "sens_warm": 4, "empty": 5}},
{"path": "na", "type": "bool", "readonly": false, "cmd": "cc na"},
{"path": "nv", "type": "enum", "enum": {"fill_valve_off": 0, "filling": 1, "no_fill_valve": 2, "timeout": 3, "timeout1": 4, "boost": 5}},
{"path": "nc", "type": "enum", "enum": {"stop": 0, "fill": 1, "off": 2, "auto": 3}, "readonly": false, "cmd": "cc nc"},
{"path": "nfb", "type": "float"},
{"path": "cda", "type": "float"},
{"path": "cdb", "type": "float"},
{"path": "cba", "type": "float"},
{"path": "cbb", "type": "float"},
{"path": "cvs", "type": "int"},
{"path": "csp", "type": "int"},
{"path": "cdv", "type": "text", "readonly": false, "cmd": "cc cdv"},
{"path": "cic", "type": "text", "readonly": false, "cmd": "cc cic"},
{"path": "cin", "type": "text"},
{"path": "cds", "type": "enum", "enum": {"local": 0, "remote": 1, "loading": 2, "by_code": 3, "by_touch": 4}, "readonly": false, "cmd": "cc cds"},
{"path": "timing", "type": "bool", "readonly": false, "cmd": "cc timing"},
{"path": "tc", "type": "float", "visibility": 3},
{"path": "tn", "type": "float", "visibility": 3},
{"path": "th", "type": "float", "visibility": 3},
{"path": "tf", "type": "float", "visibility": 3},
{"path": "tm", "type": "float", "visibility": 3},
{"path": "tv", "type": "float", "visibility": 3},
{"path": "tq", "type": "float", "visibility": 3},
{"path": "bdl", "type": "float", "readonly": false, "cmd": "cc bdl"}]},
"nv": {"base": "/nv", "params": [
{"path": "", "type": "enum", "enum": {"fixed": 0, "controlled": 1, "automatic": 2, "close": 3, "open": 4}, "readonly": false, "cmd": "nv", "kids": 11},
{"path": "send", "type": "text", "readonly": false, "cmd": "nv send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "motstat", "type": "enum", "enum": {"idle": 0, "opening": 1, "closing": 2, "opened": 3, "closed": 4, "no_motor": 5}},
{"path": "flow", "type": "float"},
{"path": "set", "type": "float", "readonly": false, "cmd": "nv set"},
{"path": "flowmax", "type": "float", "readonly": false, "cmd": "nv flowmax"},
{"path": "flowp", "type": "float"},
{"path": "span", "type": "float"},
{"path": "ctrl", "type": "none", "kids": 13},
{"path": "ctrl/regtext", "type": "text"},
{"path": "ctrl/prop_o", "type": "float", "readonly": false, "cmd": "nv ctrl/prop_o", "description": "prop [sec/mbar] when opening. above 4 mbar a 10 times lower value is used"},
{"path": "ctrl/prop_c", "type": "float", "readonly": false, "cmd": "nv ctrl/prop_c", "description": "prop [sec/mbar] when closing. above 4 mbar a 10 times lower value is used"},
{"path": "ctrl/deriv_o", "type": "float", "readonly": false, "cmd": "nv ctrl/deriv_o", "description": "convergence target time [sec] when opening"},
{"path": "ctrl/deriv_c", "type": "float", "readonly": false, "cmd": "nv ctrl/deriv_c", "description": "convergence target time [sec] when closing"},
{"path": "ctrl/minpulse_o", "type": "float", "readonly": false, "cmd": "nv ctrl/minpulse_o", "description": "minimum close pulse [sec]"},
{"path": "ctrl/minpulse_c", "type": "float", "readonly": false, "cmd": "nv ctrl/minpulse_c", "description": "standard close pulse [sec]"},
{"path": "ctrl/hystpulse_o", "type": "float", "readonly": false, "cmd": "nv ctrl/hystpulse_o", "description": "motor pulse to overcome hysteresis when opening"},
{"path": "ctrl/hystpulse_c", "type": "float", "readonly": false, "cmd": "nv ctrl/hystpulse_c", "description": "motor pulse to overcome hysteresis when closing"},
{"path": "ctrl/tol", "type": "float", "readonly": false, "cmd": "nv ctrl/tol", "description": "valid below 3 mbar"},
{"path": "ctrl/tolhigh", "type": "float", "readonly": false, "cmd": "nv ctrl/tolhigh", "description": "valid above 4 mbar"},
{"path": "ctrl/openpulse", "type": "float", "readonly": false, "cmd": "nv ctrl/openpulse", "description": "time to open from completely closed to a significant opening"},
{"path": "ctrl/adjust_minpulse", "type": "bool", "readonly": false, "cmd": "nv ctrl/adjust_minpulse", "description": "adjust minpulse automatically"},
{"path": "autoflow", "type": "none", "kids": 24},
{"path": "autoflow/suspended", "type": "bool", "readonly": false, "cmd": "nv autoflow/suspended"},
{"path": "autoflow/prop", "type": "float", "readonly": false, "cmd": "nv autoflow/prop"},
{"path": "autoflow/flowstd", "type": "float", "readonly": false, "cmd": "nv autoflow/flowstd"},
{"path": "autoflow/flowlim", "type": "float", "readonly": false, "cmd": "nv autoflow/flowlim"},
{"path": "autoflow/smooth", "type": "float", "readonly": false, "cmd": "nv autoflow/smooth"},
{"path": "autoflow/difSize", "type": "float", "readonly": false, "cmd": "nv autoflow/difSize"},
{"path": "autoflow/difRange", "type": "float", "readonly": false, "cmd": "nv autoflow/difRange"},
{"path": "autoflow/flowSize", "type": "float", "readonly": false, "cmd": "nv autoflow/flowSize"},
{"path": "autoflow/convTime", "type": "float", "readonly": false, "cmd": "nv autoflow/convTime"},
{"path": "autoflow/Tmin", "type": "float", "readonly": false, "cmd": "nv autoflow/Tmin"},
{"path": "autoflow/script", "type": "text", "readonly": false, "cmd": "nv autoflow/script"},
{"path": "autoflow/getTemp", "type": "text", "readonly": false, "cmd": "nv autoflow/getTemp"},
{"path": "autoflow/getTset", "type": "text", "readonly": false, "cmd": "nv autoflow/getTset"},
{"path": "autoflow/getFlow", "type": "text", "readonly": false, "cmd": "nv autoflow/getFlow"},
{"path": "autoflow/difBuf", "type": "text"},
{"path": "autoflow/flowBuf", "type": "text"},
{"path": "autoflow/flowset", "type": "float"},
{"path": "autoflow/flowmin", "type": "float"},
{"path": "autoflow/flowmax", "type": "float"},
{"path": "autoflow/difmin", "type": "float"},
{"path": "autoflow/difmax", "type": "float"},
{"path": "autoflow/setmin", "type": "float"},
{"path": "autoflow/setmax", "type": "float"},
{"path": "autoflow/flowtarget", "type": "float"},
{"path": "calib", "type": "none", "kids": 2},
{"path": "calib/ln_per_min_per_mbar", "type": "float", "readonly": false, "cmd": "nv calib/ln_per_min_per_mbar"},
{"path": "calib/mbar_offset", "type": "float", "readonly": false, "cmd": "nv calib/mbar_offset"}]},
"hefill": {"base": "/hefill", "params": [
{"path": "", "type": "enum", "enum": {"watching": 0, "filling": 1, "inactive": 2, "manualfill": 3}, "readonly": false, "cmd": "hefill", "kids": 16},
{"path": "send", "type": "text", "readonly": false, "cmd": "hefill send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "state", "type": "text"},
{"path": "readlevel", "type": "text", "readonly": false, "cmd": "hefill readlevel", "visibility": 3},
{"path": "lowlevel", "type": "float", "readonly": false, "cmd": "hefill lowlevel"},
{"path": "highlevel", "type": "float", "readonly": false, "cmd": "hefill highlevel"},
{"path": "smooth", "type": "float"},
{"path": "minfillminutes", "type": "float", "readonly": false, "cmd": "hefill minfillminutes"},
{"path": "maxfillminutes", "type": "float", "readonly": false, "cmd": "hefill maxfillminutes"},
{"path": "minholdhours", "type": "float", "readonly": false, "cmd": "hefill minholdhours"},
{"path": "maxholdhours", "type": "float", "readonly": false, "cmd": "hefill maxholdhours"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "hefill tolerance"},
{"path": "badreadingminutes", "type": "float", "readonly": false, "cmd": "hefill badreadingminutes"},
{"path": "tubecoolingminutes", "type": "float", "readonly": false, "cmd": "hefill tubecoolingminutes"},
{"path": "vessellimit", "type": "float", "readonly": false, "cmd": "hefill vessellimit"},
{"path": "vext", "type": "float"}]},
"hepump": {"base": "/hepump", "params": [
{"path": "", "type": "enum", "enum": {"neodry": 8, "xds35_auto": 0, "xds35_manual": 1, "sv65": 2, "other": 3, "no": -1}, "readonly": false, "cmd": "hepump", "description": "xds35: scroll pump, sv65: leybold", "kids": 10},
{"path": "send", "type": "text", "readonly": false, "cmd": "hepump send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "running", "type": "bool", "readonly": false, "cmd": "hepump running"},
{"path": "eco", "type": "bool", "readonly": false, "cmd": "hepump eco"},
{"path": "auto", "type": "bool", "readonly": false, "cmd": "hepump auto"},
{"path": "valve", "type": "enum", "enum": {"closed": 0, "closing": 1, "opening": 2, "opened": 3, "undefined": 4}, "readonly": false, "cmd": "hepump valve"},
{"path": "eco_t_lim", "type": "float", "readonly": false, "cmd": "hepump eco_t_lim", "description": "switch off eco mode when T_set < eco_t_lim and T < eco_t_lim * 2"},
{"path": "calib", "type": "float", "readonly": false, "cmd": "hepump calib", "visibility": 3},
{"path": "health", "type": "float"}]},
"hemot": {"base": "/hepump/hemot", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run hemot", "kids": 30},
{"path": "send", "type": "text", "readonly": false, "cmd": "hemot send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "hemot is_running", "visibility": 3},
{"path": "pos", "type": "float"},
{"path": "encoder", "type": "float"},
{"path": "zero", "type": "float", "readonly": false, "cmd": "hemot zero"},
{"path": "lowerlimit", "type": "float", "readonly": false, "cmd": "hemot lowerlimit"},
{"path": "upperlimit", "type": "float", "readonly": false, "cmd": "hemot upperlimit"},
{"path": "disablelimits", "type": "bool", "readonly": false, "cmd": "hemot disablelimits"},
{"path": "verbose", "type": "bool", "readonly": false, "cmd": "hemot verbose"},
{"path": "target", "type": "float"},
{"path": "runstate", "type": "enum", "enum": {"idle": 0, "running": 1, "finished": 2, "error": 3}},
{"path": "precision", "type": "float", "readonly": false, "cmd": "hemot precision"},
{"path": "maxencdif", "type": "float", "readonly": false, "cmd": "hemot maxencdif"},
{"path": "id", "type": "float", "readonly": false, "cmd": "hemot id"},
{"path": "pump_number", "type": "float", "readonly": false, "cmd": "hemot pump_number"},
{"path": "init", "type": "float", "readonly": false, "cmd": "hemot init"},
{"path": "maxspeed", "type": "float", "readonly": false, "cmd": "hemot maxspeed"},
{"path": "acceleration", "type": "float", "readonly": false, "cmd": "hemot acceleration"},
{"path": "maxcurrent", "type": "float", "readonly": false, "cmd": "hemot maxcurrent"},
{"path": "standbycurrent", "type": "float", "readonly": false, "cmd": "hemot standbycurrent"},
{"path": "freewheeling", "type": "bool", "readonly": false, "cmd": "hemot freewheeling"},
{"path": "output0", "type": "bool", "readonly": false, "cmd": "hemot output0"},
{"path": "output1", "type": "bool", "readonly": false, "cmd": "hemot output1"},
{"path": "input3", "type": "bool"},
{"path": "pullup", "type": "float", "readonly": false, "cmd": "hemot pullup"},
{"path": "nopumpfeedback", "type": "bool", "readonly": false, "cmd": "hemot nopumpfeedback"},
{"path": "eeprom", "type": "enum", "enum": {"ok": 0, "dirty": 1, "save": 2, "load": 3}, "readonly": false, "cmd": "hemot eeprom"},
{"path": "customadr", "type": "text", "readonly": false, "cmd": "hemot customadr"},
{"path": "custompar", "type": "float", "readonly": false, "cmd": "hemot custompar"}]},
"nvflow": {"base": "/nvflow", "params": [
{"path": "", "type": "float", "kids": 7},
{"path": "send", "type": "text", "readonly": false, "cmd": "nvflow send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "stddev", "type": "float"},
{"path": "nsamples", "type": "int", "readonly": false, "cmd": "nvflow nsamples"},
{"path": "offset", "type": "float", "readonly": false, "cmd": "nvflow offset"},
{"path": "scale", "type": "float", "readonly": false, "cmd": "nvflow scale"},
{"path": "save", "type": "bool", "readonly": false, "cmd": "nvflow save", "description": "unchecked: current calib is not saved. set checked: save calib"}]},
"ln2fill": {"base": "/ln2fill", "params": [
{"path": "", "type": "enum", "enum": {"watching": 0, "filling": 1, "inactive": 2, "manualfill": 3}, "readonly": false, "cmd": "ln2fill", "kids": 14},
{"path": "send", "type": "text", "readonly": false, "cmd": "ln2fill send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "state", "type": "text"},
{"path": "readlevel", "type": "text", "readonly": false, "cmd": "ln2fill readlevel", "visibility": 3},
{"path": "lowlevel", "type": "float", "readonly": false, "cmd": "ln2fill lowlevel"},
{"path": "highlevel", "type": "float", "readonly": false, "cmd": "ln2fill highlevel"},
{"path": "smooth", "type": "float"},
{"path": "minfillminutes", "type": "float", "readonly": false, "cmd": "ln2fill minfillminutes"},
{"path": "maxfillminutes", "type": "float", "readonly": false, "cmd": "ln2fill maxfillminutes"},
{"path": "minholdhours", "type": "float", "readonly": false, "cmd": "ln2fill minholdhours"},
{"path": "maxholdhours", "type": "float", "readonly": false, "cmd": "ln2fill maxholdhours"},
{"path": "tolerance", "type": "float", "readonly": false, "cmd": "ln2fill tolerance"},
{"path": "badreadingminutes", "type": "float", "readonly": false, "cmd": "ln2fill badreadingminutes"},
{"path": "tubecoolingminutes", "type": "float", "readonly": false, "cmd": "ln2fill tubecoolingminutes"}]},
"mf": {"base": "/mf", "params": [
{"path": "", "type": "float", "readonly": false, "cmd": "run mf", "kids": 26},
{"path": "persmode", "type": "int", "readonly": false, "cmd": "mf persmode"},
{"path": "perswitch", "type": "int"},
{"path": "nowait", "type": "int", "readonly": false, "cmd": "mf nowait"},
{"path": "maxlimit", "type": "float", "visibility": 3},
{"path": "limit", "type": "float", "readonly": false, "cmd": "mf limit"},
{"path": "ramp", "type": "float", "readonly": false, "cmd": "mf ramp"},
{"path": "perscurrent", "type": "float", "readonly": false, "cmd": "mf perscurrent"},
{"path": "perslimit", "type": "float", "readonly": false, "cmd": "mf perslimit"},
{"path": "perswait", "type": "int", "readonly": false, "cmd": "mf perswait"},
{"path": "persdelay", "type": "int", "readonly": false, "cmd": "mf persdelay"},
{"path": "current", "type": "float"},
{"path": "measured", "type": "float"},
{"path": "voltage", "type": "float"},
{"path": "lastfield", "type": "float", "visibility": 3},
{"path": "ampRamp", "type": "float", "visibility": 3},
{"path": "inductance", "type": "float", "visibility": 3},
{"path": "trainedTo", "type": "float", "readonly": false, "cmd": "mf trainedTo"},
{"path": "trainMode", "type": "int"},
{"path": "external", "type": "int", "readonly": false, "cmd": "mf external"},
{"path": "startScript", "type": "text", "readonly": false, "cmd": "mf startScript", "visibility": 3},
{"path": "is_running", "type": "int", "readonly": false, "cmd": "mf is_running", "visibility": 3},
{"path": "verbose", "type": "int", "readonly": false, "cmd": "mf verbose", "visibility": 3},
{"path": "driver", "type": "text", "visibility": 3},
{"path": "creationCmd", "type": "text", "visibility": 3},
{"path": "targetValue", "type": "float"},
{"path": "status", "type": "text", "readonly": false, "cmd": "mf status", "visibility": 3}]},
"lev": {"base": "/lev", "params": [
{"path": "", "type": "float", "kids": 4},
{"path": "send", "type": "text", "readonly": false, "cmd": "lev send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "mode", "type": "enum", "enum": {"slow": 0, "fast (switches to slow automatically after filling)": 1}, "readonly": false, "cmd": "lev mode"},
{"path": "n2", "type": "float"}]},
"tcoil": {"base": "/tcoil", "params": [
{"path": "", "type": "float", "kids": 11},
{"path": "send", "type": "text", "readonly": false, "cmd": "tcoil send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "excitation", "type": "float", "readonly": false, "cmd": "tcoil excitation", "visibility": 3},
{"path": "ta", "type": "float", "visibility": 3, "kids": 3},
{"path": "ta/enable", "type": "bool", "readonly": false, "cmd": "tcoil ta/enable"},
{"path": "ta/r", "type": "float"},
{"path": "ta/curve", "type": "text", "readonly": false, "cmd": "tcoil ta/curve", "kids": 3},
{"path": "ta/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil ta/curve/adjust"},
{"path": "ta/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil ta/curve/points"},
{"path": "ta/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil ta/curve/cpoints"},
{"path": "tb", "type": "float", "visibility": 3, "kids": 3},
{"path": "tb/enable", "type": "bool", "readonly": false, "cmd": "tcoil tb/enable"},
{"path": "tb/r", "type": "float"},
{"path": "tb/curve", "type": "text", "readonly": false, "cmd": "tcoil tb/curve", "kids": 3},
{"path": "tb/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil tb/curve/adjust"},
{"path": "tb/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil tb/curve/points"},
{"path": "tb/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil tb/curve/cpoints"},
{"path": "td", "type": "float", "visibility": 3, "kids": 3},
{"path": "td/enable", "type": "bool", "readonly": false, "cmd": "tcoil td/enable"},
{"path": "td/r", "type": "float"},
{"path": "td/curve", "type": "text", "readonly": false, "cmd": "tcoil td/curve", "kids": 3},
{"path": "td/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil td/curve/adjust"},
{"path": "td/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil td/curve/points"},
{"path": "td/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil td/curve/cpoints"},
{"path": "ref", "type": "float", "visibility": 3, "kids": 3},
{"path": "ref/enable", "type": "bool", "readonly": false, "cmd": "tcoil ref/enable"},
{"path": "ref/r", "type": "float"},
{"path": "ref/curve", "type": "text", "readonly": false, "cmd": "tcoil ref/curve", "kids": 3},
{"path": "ref/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil ref/curve/adjust"},
{"path": "ref/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil ref/curve/points"},
{"path": "ref/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil ref/curve/cpoints"},
{"path": "tc", "type": "float", "visibility": 3, "kids": 3},
{"path": "tc/enable", "type": "bool", "readonly": false, "cmd": "tcoil tc/enable"},
{"path": "tc/r", "type": "float"},
{"path": "tc/curve", "type": "text", "readonly": false, "cmd": "tcoil tc/curve", "kids": 3},
{"path": "tc/curve/adjust", "type": "text", "readonly": false, "cmd": "tcoil tc/curve/adjust"},
{"path": "tc/curve/points", "type": "floatvarar", "readonly": false, "cmd": "tcoil tc/curve/points"},
{"path": "tc/curve/cpoints", "type": "floatvarar", "readonly": false, "cmd": "tcoil tc/curve/cpoints"},
{"path": "ext", "type": "float", "visibility": 3},
{"path": "com", "type": "float", "visibility": 3},
{"path": "gnd", "type": "float", "visibility": 3}]},
"table": {"base": "/table", "params": [
{"path": "", "type": "none", "kids": 17},
{"path": "send", "type": "text", "readonly": false, "cmd": "table send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "fix_tt_set_prop", "type": "bool", "readonly": false, "cmd": "table fix_tt_set_prop"},
{"path": "val_tt_set_prop", "type": "float"},
{"path": "tbl_tt_set_prop", "type": "text", "readonly": false, "cmd": "table tbl_tt_set_prop", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_set_integ", "type": "bool", "readonly": false, "cmd": "table fix_tt_set_integ"},
{"path": "val_tt_set_integ", "type": "float"},
{"path": "tbl_tt_set_integ", "type": "text", "readonly": false, "cmd": "table tbl_tt_set_integ", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_int2", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_int2"},
{"path": "val_tt_dblctrl_int2", "type": "float"},
{"path": "tbl_tt_dblctrl_int2", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_int2", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_prop_up", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_prop_up"},
{"path": "val_tt_dblctrl_prop_up", "type": "float"},
{"path": "tbl_tt_dblctrl_prop_up", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_prop_up", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."},
{"path": "fix_tt_dblctrl_prop_lo", "type": "bool", "readonly": false, "cmd": "table fix_tt_dblctrl_prop_lo"},
{"path": "val_tt_dblctrl_prop_lo", "type": "float"},
{"path": "tbl_tt_dblctrl_prop_lo", "type": "text", "readonly": false, "cmd": "table tbl_tt_dblctrl_prop_lo", "description": "enter value pair separated with colon T1:par1 T2:par2 ..."}]}}

76
cfg/sea/thermalcond.stick.json Normal file
View File

@ -0,0 +1,76 @@
{"res": {"base": "/res", "params": [
{"path": "", "type": "int", "kids": 10},
{"path": "send", "type": "text", "readonly": false, "cmd": "res send", "visibility": 3},
{"path": "status", "type": "text", "visibility": 3},
{"path": "autoscan", "type": "bool", "readonly": false, "cmd": "res autoscan", "kids": 4},
{"path": "autoscan/synchronized", "type": "bool", "readonly": false, "cmd": "res autoscan/synchronized"},
{"path": "autoscan/interval", "type": "text", "readonly": false, "cmd": "res autoscan/interval"},
{"path": "autoscan/pause", "type": "text", "readonly": false, "cmd": "res autoscan/pause"},
{"path": "autoscan/dwell", "type": "text", "readonly": false, "cmd": "res autoscan/dwell"},
{"path": "s1", "type": "float", "kids": 14},
{"path": "s1/active", "type": "enum", "enum": {"inactive": 0, "active": 1}, "readonly": false, "cmd": "res s1/active"},
{"path": "s1/autorange", "type": "bool", "readonly": false, "cmd": "res s1/autorange", "description": "autorange (common for all channels)"},
{"path": "s1/range", "type": "text", "readonly": false, "cmd": "res s1/range", "description": "resistance range in Ohm"},
{"path": "s1/range_num", "type": "int"},
{"path": "s1/excitation", "type": "text", "readonly": false, "cmd": "res s1/excitation", "description": "excitation with unit, i.e. 2uV or 3pA"},
{"path": "s1/excitation_num", "type": "int"},
{"path": "s1/excitation_mode", "type": "enum", "enum": {"voltage": 0, "current": 1, "off": 2}},
{"path": "s1/pause", "type": "int", "readonly": false, "cmd": "res s1/pause", "description": "pause time [sec] after channel change"},
{"path": "s1/filter", "type": "int", "readonly": false, "cmd": "res s1/filter", "description": "filter average time [sec]"},
{"path": "s1/dwell", "type": "int", "readonly": false, "cmd": "res s1/dwell", "description": "dwell time [sec]. Total time per channel: pause + filter + dwell"},
{"path": "s1/status", "type": "text"},
{"path": "s1/curve", "type": "text", "readonly": false, "cmd": "res s1/curve", "kids": 1},
{"path": "s1/curve/points", "type": "floatvarar", "readonly": false, "cmd": "res s1/curve/points", "visibility": 3},
{"path": "s1/alarm", "type": "float", "readonly": false, "cmd": "res s1/alarm"},
{"path": "s1/raw", "type": "float"},
{"path": "s2", "type": "float", "kids": 14},
{"path": "s2/active", "type": "enum", "enum": {"inactive": 0, "active": 1}, "readonly": false, "cmd": "res s2/active"},
{"path": "s2/autorange", "type": "bool", "readonly": false, "cmd": "res s2/autorange", "description": "autorange (common for all channels)"},
{"path": "s2/range", "type": "text", "readonly": false, "cmd": "res s2/range", "description": "resistance range in Ohm"},
{"path": "s2/range_num", "type": "int"},
{"path": "s2/excitation", "type": "text", "readonly": false, "cmd": "res s2/excitation", "description": "excitation with unit, i.e. 2uV or 3pA"},
{"path": "s2/excitation_num", "type": "int"},
{"path": "s2/excitation_mode", "type": "enum", "enum": {"voltage": 0, "current": 1, "off": 2}},
{"path": "s2/pause", "type": "int", "readonly": false, "cmd": "res s2/pause", "description": "pause time [sec] after channel change"},
{"path": "s2/filter", "type": "int", "readonly": false, "cmd": "res s2/filter", "description": "filter average time [sec]"},
{"path": "s2/dwell", "type": "int", "readonly": false, "cmd": "res s2/dwell", "description": "dwell time [sec]. Total time per channel: pause + filter + dwell"},
{"path": "s2/status", "type": "text"},
{"path": "s2/curve", "type": "text", "readonly": false, "cmd": "res s2/curve", "kids": 1},
{"path": "s2/curve/points", "type": "floatvarar", "readonly": false, "cmd": "res s2/curve/points", "visibility": 3},
{"path": "s2/alarm", "type": "float", "readonly": false, "cmd": "res s2/alarm"},
{"path": "s2/raw", "type": "float"},
{"path": "s3", "type": "float", "kids": 14},
{"path": "s3/active", "type": "enum", "enum": {"inactive": 0, "active": 1}, "readonly": false, "cmd": "res s3/active"},
{"path": "s3/autorange", "type": "bool", "readonly": false, "cmd": "res s3/autorange", "description": "autorange (common for all channels)"},
{"path": "s3/range", "type": "text", "readonly": false, "cmd": "res s3/range", "description": "resistance range in Ohm"},
{"path": "s3/range_num", "type": "int"},
{"path": "s3/excitation", "type": "text", "readonly": false, "cmd": "res s3/excitation", "description": "excitation with unit, i.e. 2uV or 3pA"},
{"path": "s3/excitation_num", "type": "int"},
{"path": "s3/excitation_mode", "type": "enum", "enum": {"voltage": 0, "current": 1, "off": 2}},
{"path": "s3/pause", "type": "int", "readonly": false, "cmd": "res s3/pause", "description": "pause time [sec] after channel change"},
{"path": "s3/filter", "type": "int", "readonly": false, "cmd": "res s3/filter", "description": "filter average time [sec]"},
{"path": "s3/dwell", "type": "int", "readonly": false, "cmd": "res s3/dwell", "description": "dwell time [sec]. Total time per channel: pause + filter + dwell"},
{"path": "s3/status", "type": "text"},
{"path": "s3/curve", "type": "text", "readonly": false, "cmd": "res s3/curve", "kids": 1},
{"path": "s3/curve/points", "type": "floatvarar", "readonly": false, "cmd": "res s3/curve/points", "visibility": 3},
{"path": "s3/alarm", "type": "float", "readonly": false, "cmd": "res s3/alarm"},
{"path": "s3/raw", "type": "float"},
{"path": "s4", "type": "float", "kids": 14},
{"path": "s4/active", "type": "enum", "enum": {"inactive": 0, "active": 1}, "readonly": false, "cmd": "res s4/active"},
{"path": "s4/autorange", "type": "bool", "readonly": false, "cmd": "res s4/autorange", "description": "autorange (common for all channels)"},
{"path": "s4/range", "type": "text", "readonly": false, "cmd": "res s4/range", "description": "resistance range in Ohm"},
{"path": "s4/range_num", "type": "int"},
{"path": "s4/excitation", "type": "text", "readonly": false, "cmd": "res s4/excitation", "description": "excitation with unit, i.e. 2uV or 3pA"},
{"path": "s4/excitation_num", "type": "int"},
{"path": "s4/excitation_mode", "type": "enum", "enum": {"voltage": 0, "current": 1, "off": 2}},
{"path": "s4/pause", "type": "int", "readonly": false, "cmd": "res s4/pause", "description": "pause time [sec] after channel change"},
{"path": "s4/filter", "type": "int", "readonly": false, "cmd": "res s4/filter", "description": "filter average time [sec]"},
{"path": "s4/dwell", "type": "int", "readonly": false, "cmd": "res s4/dwell", "description": "dwell time [sec]. Total time per channel: pause + filter + dwell"},
{"path": "s4/status", "type": "text"},
{"path": "s4/curve", "type": "text", "readonly": false, "cmd": "res s4/curve", "kids": 1},
{"path": "s4/curve/points", "type": "floatvarar", "readonly": false, "cmd": "res s4/curve/points", "visibility": 3},
{"path": "s4/alarm", "type": "float", "readonly": false, "cmd": "res s4/alarm"},
{"path": "s4/raw", "type": "float"},
{"path": "analog2", "type": "float", "readonly": false, "cmd": "res analog2"},
{"path": "remote", "type": "bool"},
{"path": "display", "type": "text", "readonly": false, "cmd": "res display"}]}}

49
cfg/sim_mlz_entangle_simulation_cfg.py Normal file
View File

@ -0,0 +1,49 @@
Node('simulation',
'Auto-generated configuration by frappy.',
'tcp://10767',
)
Mod('analoginput',
'frappy_mlz.entangle.AnalogInput',
'from test/sim/analoginput',
tangodevice = 'tango://localhost:10000/test/sim/analoginput',
)
Mod('sensor',
'frappy_mlz.entangle.Sensor',
'from test/sim/sensor',
tangodevice = 'tango://localhost:10000/test/sim/sensor',
)
Mod('analogoutput',
'frappy_mlz.entangle.AnalogOutput',
'from test/sim/analogoutput',
tangodevice = 'tango://localhost:10000/test/sim/analogoutput',
)
Mod('actuator',
'frappy_mlz.entangle.Actuator',
'from test/sim/actuator',
tangodevice = 'tango://localhost:10000/test/sim/actuator',
)
Mod('motor',
'frappy_mlz.entangle.Motor',
'from test/sim/motor',
tangodevice = 'tango://localhost:10000/test/sim/motor',
)
Mod('powersupply',
'frappy_mlz.entangle.PowerSupply',
'from test/sim/powersupply',
tangodevice = 'tango://localhost:10000/test/sim/powersupply',
)
Mod('digitalinput',
'frappy_mlz.entangle.DigitalInput',
'from test/sim/digitalinput',
tangodevice = 'tango://localhost:10000/test/sim/digitalinput',
)
Mod('digitaloutput',
'frappy_mlz.entangle.DigitalOutput',
'from test/sim/digitaloutput',
tangodevice = 'tango://localhost:10000/test/sim/digitaloutput',
)
Mod('stringio',
'frappy_mlz.entangle.StringIO',
'from test/sim/stringio',
tangodevice = 'tango://localhost:10000/test/sim/stringio',
)

16
cfg/stick/hvolt_long_cfg.py
View File

@ -10,6 +10,14 @@ Mod('sea_stick',
) )
Mod('ts', Mod('ts',
'frappy_psi.sea.SeaReadable', '',
io='sea_stick',
sea_object='tt',
json_file='ma6.config.json',
rel_paths=['ts_2'],
)
Mod('ts_reg',
'frappy_psi.sea.SeaReadable', '', 'frappy_psi.sea.SeaReadable', '',
io='sea_stick', io='sea_stick',
sea_object='tt', sea_object='tt',
@ -22,3 +30,11 @@ Mod('hcp',
io='sea_stick', io='sea_stick',
sea_object='hcp', sea_object='hcp',
) )
Mod('v',
'frappy_psi.parmod.Driv',
'drivable voltage',
read='hcp.value',
write='hcp.set',
unit='V',
)

4
cfg/stick/ma11stick_cfg.py
View File

@ -22,8 +22,8 @@ Mod('ts',
'frappy_psi.parmod.Converging', 'frappy_psi.parmod.Converging',
'virtual stick T', 'virtual stick T',
unit='K', unit='K',
read='tsam.value', value_param='tsam.value',
write='tsam.setsamp', target_param='tsam.setsamp',
meaning=['temperature', 20], meaning=['temperature', 20],
settling_time=20, settling_time=20,
tolerance=1, tolerance=1,

11
cfg/stick/ma6_sampleheat_cfg.py Normal file
View File

@ -0,0 +1,11 @@
Node('ma6_sampleheat.psi.ch', '', interface='tcp://5000')
Mod('sea_stick',
'frappy_psi.sea.SeaClient',
'stick sea connection for ma6_sampleheat.stick',
config='ma6_sampleheat.stick',
service='stick',
)
# ts is configured on ma7_sampleheat_cfg.py

18
cfg/stick/ma7_piezostick_cfg.py Normal file
View File

@ -0,0 +1,18 @@
Node('ma7.stick.sea.psi.ch',
'MA7 standard sample stick',
)
Mod('sea_stick',
'frappy_psi.sea.SeaClient',
'SEA stick connection',
config='ma7_piezo.stick',
service='stick',
)
Mod('ts',
'frappy_psi.sea.SeaReadable', '',
io='sea_stick',
sea_object='tt',
json_file='ma7_piezo.config.json',
rel_paths=['ts'],
)

72
cfg/stick/ma7combi_cfg.py Normal file
View File

@ -0,0 +1,72 @@
Node('ma7.stick.sea.psi.ch',
'MA7 standard sample stick',
)
Mod('sea_stick',
'frappy_psi.sea.SeaClient',
'SEA stick connection',
config='ma7.stick',
service='stick',
)
Mod('ts_sea',
'frappy_psi.sea.SeaReadable',
'sample stick temperature',
io='sea_stick',
json_file='ma7.config.json',
sea_object='tt',
rel_paths=['ts', 'setsamp'],
# export=False,
)
Mod('tm_sea',
'frappy_psi.sea.SeaReadable',
'sample stick temperature',
io='sea_stick',
json_file='ma7.config.json',
sea_object='tt',
rel_paths=['tm', 'set'],
# export=False,
)
Mod('ts_writ',
'frappy_psi.parmod.ParWrit',
'writable version of ts',
unit='K',
value_param='ts_sea.value',
target_param='ts_sea.setsamp',
)
Mod('tm_writ',
'frappy_psi.parmod.ParWrit',
'writable version of tm',
unit='K',
value_param='tm_sea.value',
target_param='tm_sea.set',
)
Mod('sam_htr',
'frappy_psi.parmod.Par',
'htr module version',
unit='W',
value_param='ts_sea.power',
)
Mod('vti_htr',
'frappy_psi.parmod.Par',
'htr module version',
unit='W',
value_param='tm_sea.power',
)
Mod('ts',
'frappy_psi.parmod.CombinedSampleVti',
'drivable stick T using setsamp',
sample='ts_writ',
sample_htr='sam_htr',
vti='tm_writ',
vti_htr='vti_htr',
meaning=['temperature', 20],
settling_time=20,
tolerance=1,
)

6
cfg/stick/ma7stick_cfg.py
View File

@ -9,7 +9,7 @@ Mod('sea_stick',
service='stick', service='stick',
) )
Mod('tsam', Mod('ts_sea',
'frappy_psi.sea.SeaReadable', 'frappy_psi.sea.SeaReadable',
'sample stick temperature', 'sample stick temperature',
io='sea_stick', io='sea_stick',
@ -22,8 +22,8 @@ Mod('ts',
'frappy_psi.parmod.Converging', 'frappy_psi.parmod.Converging',
'drivable stick T using setsamp', 'drivable stick T using setsamp',
unit='K', unit='K',
read='tsam.value', value_param='ts_sea.value',
write='tsam.setsamp', target_param='ts_sea.setsamp',
meaning=['temperature', 20], meaning=['temperature', 20],
settling_time=20, settling_time=20,
tolerance=1, tolerance=1,

21
cfg/stick/ovenstick_cfg.py
View File

@ -9,10 +9,23 @@ Mod('sea_stick',
service='stick', service='stick',
) )
Mod('ts', Mod('tsam',
'frappy_psi.sea.SeaReadable', '', 'frappy_psi.sea.SeaReadable',
'sample stick temperature',
io='sea_stick', io='sea_stick',
sea_object='tt',
json_file='ma7.config.json', json_file='ma7.config.json',
rel_paths=['ts'], sea_object='tt',
rel_paths=['ts', 'setsamp']
) )
Mod('ts',
'frappy_psi.parmod.Converging',
'drivable stick T using setsamp',
unit='K',
value_param='tsam.value',
target_param='tsam.setsamp',
meaning=['temperature', 20],
settling_time=20,
tolerance=1,
)

23
cfg/stick/pgas5.stick
View File

@ -1,23 +0,0 @@
[NODE]
description = PGAS5 gas pressure cell stick
id = pgas5.stick.sea.psi.ch
[sea_stick]
class = secop_psi.sea.SeaClient
description = stick SEA connection to ill5.stick
config = ill5.stick
service = stick
[ts]
class = secop_psi.sea.SeaReadable
io = sea_stick
sea_object = tt
json_file = ill5.config.json
rel_paths = ts
[T_bottom]
class = secop_psi.sea.SeaReadable
io = sea_stick
sea_object = tt
json_file = ill5.config.json
rel_paths = tb

28
cfg/stick/pgas5_cfg.py Normal file
View File

@ -0,0 +1,28 @@
Node('pgas5.stick.sea.psi.ch',
'PGAS5 gas pressure cell stick',
)
Mod('sea_stick',
'frappy_psi.sea.SeaClient',
'stick SEA connection to ill5.stick',
config = 'pgas5.stick',
service = 'stick',
)
Mod('ts',
'frappy_psi.sea.SeaReadable',
'sample temperature',
io = 'sea_stick',
sea_object = 'tt',
json_file = 'ill5pgas5.config.json',
rel_paths = ['ts'],
)
Mod('T_bottom',
'frappy_psi.sea.SeaReadable',
'bottom T',
io = 'sea_stick',
sea_object = 'tt',
json_file = 'ill5pgas5.config.json',
rel_paths = ['ts_2'],
)

67
cfg/stick/thermalcond_cfg.py Normal file
View File

@ -0,0 +1,67 @@
Node('thermalcond.stick.sea.psi.ch',
'''50 mm thermal conductivity stick, version with standard lsc370 driver''',
)
Mod('sea_stick',
'frappy_psi.sea.SeaClient',
'stick sea connection for thermalcond.stick',
config = 'thermalcond.stick',
service = 'stick',
)
#Mod('tsam',
# 'frappy_psi.sea.SeaReadable',
# 'sample stick temperature',
# io='sea_stick',
# json_file='ma7.config.json',
# sea_object='tt',
# rel_paths=['ts', 'setsamp']
#)
#Mod('ts',
# 'frappy_psi.parmod.Converging',
# 'drivable stick T using setsamp',
# unit='K',
# value_param='tsam.value',
# target_param='tsam.setsamp',
# meaning=['temperature', 20],
# settling_time=20,
# tolerance=1,
#)
#Mod('res',
# 'frappy_psi.sea.SeaReadable', '',
# io = 'sea_stick',
# sea_object = 'res',
#)
Mod('R1',
'frappy_psi.sea.SeaReadable', '',
io='sea_stick',
sea_object='res',
rel_paths=['s1'],
)
Mod('R2',
'frappy_psi.sea.SeaReadable', '',
io='sea_stick',
sea_object='res',
rel_paths=['s2'],
)
Mod('R3',
'frappy_psi.sea.SeaReadable', '',
io='sea_stick',
sea_object='res',
rel_paths=['s3'],
)
Mod('R4',
'frappy_psi.sea.SeaReadable', '',
io='sea_stick',
sea_object='res',
rel_paths=['s4'],
)

56
debian/changelog vendored
View File

@ -1,3 +1,59 @@
frappy-core (0.19.0) jammy; urgency=medium
[ Markus Zolliker ]
* simulation: extra_params might be a list
* add FloatEnumParam
* move StructParam to frappy/extparams.py
* bugfix in automatic creation if attached io
* fixes for proxy modules
* simplify callbacks
* fix docstring in frappy.error.OutOfRangeError
[ Alexander Zaft ]
* core: introduce common handler class
* core: cover errors in handler setup()
[ Markus Zolliker ]
* fix command doc string handling and change default stop doc string
* follow up fix for change 33168
* follow up fix: handler export=True correctly
[ Alexander Zaft ]
* core: add websocket interface
[ Georg Brandl ]
* dispatcher: consistent handling of missing timestamps
[ Alexander Zaft ]
* gui: catch invalid inputs
* gui: sort qt imports
[ Markus Zolliker ]
* frappy.client: cleanup properly after a reply timeout
[ Alexander Zaft ]
* gui: more specialized input widgets
* test: add uri attach test
[ Markus Zolliker ]
* frappy.client: catch errors on callbacks
* frappy.client: improve error handling more
* frappy.client.interactive: improve logging and error handling
* frappy.client.SecopClient: add the option to use no logging at all
* SecopClient.__del__ must not call callbacks
* frappy.client: avoid shutdown callback sent twice
[ Georg Brandl ]
* add config for the Entangle simulation server
[ Jens Krüger ]
* Fix abslimits reading from entangle device
[ Georg Brandl ]
* fix LimitsType to be actually used and validated
-- Markus Zolliker <jenkins@frm2.tum.de> Thu, 16 May 2024 11:31:25 +0200
frappy-core (0.18.1) focal; urgency=medium frappy-core (0.18.1) focal; urgency=medium
* mlz: Zapf fix unit handling and small errors * mlz: Zapf fix unit handling and small errors

139
frappy/client/__init__.py
View File

@ -29,10 +29,10 @@ import time
from collections import defaultdict from collections import defaultdict
from threading import Event, RLock, current_thread from threading import Event, RLock, current_thread
import frappy.errors
import frappy.params import frappy.params
from frappy.errors import make_secop_error, SECoPError, WrongTypeError
from frappy.datatypes import get_datatype from frappy.datatypes import get_datatype
from frappy.lib import mkthread, formatExtendedStack from frappy.lib import mkthread
from frappy.lib.asynconn import AsynConn, ConnectionClosed from frappy.lib.asynconn import AsynConn, ConnectionClosed
from frappy.protocol.interface import decode_msg, encode_msg_frame from frappy.protocol.interface import decode_msg, encode_msg_frame
from frappy.protocol.messages import COMMANDREQUEST, \ from frappy.protocol.messages import COMMANDREQUEST, \
@ -68,6 +68,10 @@ class Logger:
error = exception = warning = critical = info error = exception = warning = critical = info
class NullLogger(Logger):
error = exception = warning = critical = info = Logger.noop
class CallbackObject: class CallbackObject:
"""abstract definition for a target object for callbacks """abstract definition for a target object for callbacks
@ -83,6 +87,12 @@ class CallbackObject:
def unhandledMessage(self, action, ident, data): def unhandledMessage(self, action, ident, data):
"""called on an unhandled message""" """called on an unhandled message"""
def handleError(self, exc):
"""called on errors handling messages
:param exc: the exception raised (= sys.exception())
"""
def nodeStateChange(self, online, state): def nodeStateChange(self, online, state):
"""called when the state of the connection changes """called when the state of the connection changes
@ -105,19 +115,13 @@ class CacheItem(tuple):
inheriting from tuple: compatible with old previous version of cache inheriting from tuple: compatible with old previous version of cache
""" """
def __new__(cls, value, timestamp=None, readerror=None, datatype=None): def __new__(cls, value, timestamp=None, readerror=None, datatype=None):
if readerror:
assert isinstance(readerror, Exception)
else:
try:
value = datatype.import_value(value)
except (KeyError, ValueError, AttributeError):
readerror = ValueError(f'can not import {value!r} as {datatype!r}')
value = None
obj = tuple.__new__(cls, (value, timestamp, readerror)) obj = tuple.__new__(cls, (value, timestamp, readerror))
if datatype:
try: try:
# override default method
obj.format_value = datatype.format_value obj.format_value = datatype.format_value
except AttributeError: except AttributeError:
obj.format_value = lambda value, unit=None: str(value) pass
return obj return obj
@property @property
@ -144,6 +148,11 @@ class CacheItem(tuple):
return repr(self[2]) return repr(self[2])
return self.format_value(self[0]) return self.format_value(self[0])
@staticmethod
def format_value(value, unit=None):
"""typically overridden with datatype.format_value"""
return str(value)
def __repr__(self): def __repr__(self):
args = (self.value,) args = (self.value,)
if self.timestamp: if self.timestamp:
@ -153,11 +162,22 @@ class CacheItem(tuple):
return f'CacheItem{repr(args)}' return f'CacheItem{repr(args)}'
class Cache(dict):
class Undefined(Exception):
def __repr__(self):
return '<undefined>'
undefined = CacheItem(None, None, Undefined())
def __missing__(self, key):
return self.undefined
class ProxyClient: class ProxyClient:
"""common functionality for proxy clients""" """common functionality for proxy clients"""
CALLBACK_NAMES = {'updateEvent', 'updateItem', 'descriptiveDataChange', CALLBACK_NAMES = {'updateEvent', 'updateItem', 'descriptiveDataChange',
'nodeStateChange', 'unhandledMessage'} 'nodeStateChange', 'unhandledMessage', 'handleError'}
online = False # connected or reconnecting since a short time online = False # connected or reconnecting since a short time
state = 'disconnected' # further possible values: 'connecting', 'reconnecting', 'connected' state = 'disconnected' # further possible values: 'connecting', 'reconnecting', 'connected'
log = None log = None
@ -165,7 +185,7 @@ class ProxyClient:
def __init__(self): def __init__(self):
self.callbacks = {cbname: defaultdict(list) for cbname in self.CALLBACK_NAMES} self.callbacks = {cbname: defaultdict(list) for cbname in self.CALLBACK_NAMES}
# caches (module, parameter) = value, timestamp, readerror (internal names!) # caches (module, parameter) = value, timestamp, readerror (internal names!)
self.cache = {} self.cache = Cache() # dict returning Cache.undefined for missing keys
def register_callback(self, key, *args, **kwds): def register_callback(self, key, *args, **kwds):
"""register callback functions """register callback functions
@ -244,10 +264,12 @@ class ProxyClient:
except UnregisterCallback: except UnregisterCallback:
cblist.remove(cbfunc) cblist.remove(cbfunc)
except Exception as e: except Exception as e:
# the programmer should catch all errors in callbacks if cbname != 'handleError':
# if not, the log will be flooded with errors try:
if self.log: e.args = [f'error in callback {cbname}{args}: {e}']
self.log.exception('error %r calling %s%r', e, cbfunc.__name__, args) self.callback(None, 'handleError', e)
except Exception:
pass
return bool(cblist) return bool(cblist)
def updateValue(self, module, param, value, timestamp, readerror): def updateValue(self, module, param, value, timestamp, readerror):
@ -268,8 +290,17 @@ class SecopClient(ProxyClient):
descriptive_data = {} descriptive_data = {}
modules = {} modules = {}
_last_error = None _last_error = None
_update_error_count = 0
_max_error_count = 10
def __init__(self, uri, log=Logger): def __init__(self, uri, log=Logger):
"""initialize SecopClient
:param uri: the uri to connect to
:param log: a logger.
when not given, the print command is used for messages with at least info level.
when None, nothing is logged at all
"""
super().__init__() super().__init__()
# maps expected replies to [request, Event, is_error, result] until a response came # maps expected replies to [request, Event, is_error, result] until a response came
# there can only be one entry per thread calling 'request' # there can only be one entry per thread calling 'request'
@ -277,15 +308,21 @@ class SecopClient(ProxyClient):
self.io = None self.io = None
self.txq = queue.Queue(30) # queue for tx requests self.txq = queue.Queue(30) # queue for tx requests
self.pending = queue.Queue(30) # requests with colliding action + ident self.pending = queue.Queue(30) # requests with colliding action + ident
self.log = log self.log = log or NullLogger
self.uri = uri self.uri = uri
self.nodename = uri self.nodename = uri
self._lock = RLock() self._lock = RLock()
self._shutdown = Event() self._shutdown = Event()
self.cleanup = []
self.register_callback(None, self.handleError)
def __del__(self): def __del__(self):
# make sure threads are stopping. this is needed in case
# a frappy client object is lost without calling .disconnect()
try: try:
self.disconnect() # avoid callbacks when deleting. may cause deadlocks in NICOS
self.callbacks.clear()
self.disconnect(True)
except Exception: except Exception:
pass pass
@ -297,6 +334,11 @@ class SecopClient(ProxyClient):
with self._lock: with self._lock:
if self.io: if self.io:
return return
self._shutdown.clear()
self.txq = queue.Queue(30)
self.pending = queue.Queue(30)
self.active_requests.clear()
self.cleanup.clear()
if self.online: if self.online:
self._set_state(True, 'reconnecting') self._set_state(True, 'reconnecting')
else: else:
@ -328,9 +370,9 @@ class SecopClient(ProxyClient):
# pylint: disable=unsubscriptable-object # pylint: disable=unsubscriptable-object
self._init_descriptive_data(self.request(DESCRIPTIONREQUEST)[2]) self._init_descriptive_data(self.request(DESCRIPTIONREQUEST)[2])
self.nodename = self.properties.get('equipment_id', self.uri) self.nodename = self.properties.get('equipment_id', self.uri)
self._set_state(True, 'connected')
if self.activate: if self.activate:
self.request(ENABLEEVENTSREQUEST) self.request(ENABLEEVENTSREQUEST)
self._set_state(True, 'connected')
break break
except Exception: except Exception:
# print(formatExtendedTraceback()) # print(formatExtendedTraceback())
@ -366,8 +408,15 @@ class SecopClient(ProxyClient):
def __rxthread(self): def __rxthread(self):
noactivity = 0 noactivity = 0
shutdown = False
try: try:
while self._running: while self._running:
while self.cleanup:
entry = self.cleanup.pop()
for key, prev in self.active_requests.items():
if prev is entry:
self.active_requests.pop(key)
break
# may raise ConnectionClosed # may raise ConnectionClosed
reply = self.io.readline() reply = self.io.readline()
if reply is None: if reply is None:
@ -378,6 +427,7 @@ class SecopClient(ProxyClient):
continue continue
self.log.debug('RX: %r', reply) self.log.debug('RX: %r', reply)
noactivity = 0 noactivity = 0
try:
action, ident, data = decode_msg(reply) action, ident, data = decode_msg(reply)
if ident == '.': if ident == '.':
ident = None ident = None
@ -393,7 +443,7 @@ class SecopClient(ProxyClient):
now = time.time() now = time.time()
if action.startswith(ERRORPREFIX): if action.startswith(ERRORPREFIX):
timestamp = data[2].get('t', now) timestamp = data[2].get('t', now)
readerror = frappy.errors.make_secop_error(*data[0:2]) readerror = make_secop_error(*data[0:2])
value = None value = None
else: else:
timestamp = data[1].get('t', now) timestamp = data[1].get('t', now)
@ -401,12 +451,13 @@ class SecopClient(ProxyClient):
readerror = None readerror = None
module, param = module_param module, param = module_param
timestamp = min(now, timestamp) # no timestamps in the future! timestamp = min(now, timestamp) # no timestamps in the future!
try:
self.updateValue(module, param, value, timestamp, readerror) self.updateValue(module, param, value, timestamp, readerror)
except KeyError:
pass # ignore updates of unknown parameters
if action in (EVENTREPLY, ERRORPREFIX + EVENTREPLY): if action in (EVENTREPLY, ERRORPREFIX + EVENTREPLY):
continue continue
except Exception as e:
e.args = (f'error handling SECoP message {reply!r}: {e}',)
self.callback(None, 'handleError', e)
continue
try: try:
key = action, ident key = action, ident
entry = self.active_requests.pop(key) entry = self.active_requests.pop(key)
@ -433,9 +484,11 @@ class SecopClient(ProxyClient):
except ConnectionClosed: except ConnectionClosed:
pass pass
except Exception as e: except Exception as e:
self.log.error('rxthread ended with %r', e) shutdown = True
self.callback(None, 'handleError', e)
finally:
self._rxthread = None self._rxthread = None
self.disconnect(False) self.disconnect(shutdown)
if self._shutdown.is_set(): if self._shutdown.is_set():
return return
if self.activate: if self.activate:
@ -571,6 +624,13 @@ class SecopClient(ProxyClient):
if not self.callback(None, 'unhandledMessage', action, ident, data): if not self.callback(None, 'unhandledMessage', action, ident, data):
self.log.warning('unhandled message: %s %s %r', action, ident, data) self.log.warning('unhandled message: %s %s %r', action, ident, data)
def handleError(self, exc):
if self._update_error_count < self._max_error_count:
self.log.exception('%s', exc)
self._update_error_count += 1
if self._update_error_count == self._max_error_count:
self.log.error('disabled reporting of further update errors')
def _set_state(self, online, state=None): def _set_state(self, online, state=None):
# remark: reconnecting is treated as online # remark: reconnecting is treated as online
self.online = online self.online = online
@ -591,12 +651,16 @@ class SecopClient(ProxyClient):
def get_reply(self, entry): def get_reply(self, entry):
"""wait for reply and return it""" """wait for reply and return it"""
if not entry[1].wait(10): # event if not entry[1].wait(10): # event
self.cleanup.append(entry)
raise TimeoutError('no response within 10s') raise TimeoutError('no response within 10s')
if not entry[2]: # reply if not entry[2]: # reply
if self._shutdown.is_set():
raise ConnectionError('connection shut down')
# no cleanup needed as self.active_requests will be cleared on connect
raise ConnectionError('connection closed before reply') raise ConnectionError('connection closed before reply')
action, _, data = entry[2] # pylint: disable=unpacking-non-sequence action, _, data = entry[2] # pylint: disable=unpacking-non-sequence
if action.startswith(ERRORPREFIX): if action.startswith(ERRORPREFIX):
raise frappy.errors.make_secop_error(*data[0:2]) raise make_secop_error(*data[0:2])
return entry[2] # reply return entry[2] # reply
def request(self, action, ident=None, data=None): def request(self, action, ident=None, data=None):
@ -611,9 +675,14 @@ class SecopClient(ProxyClient):
"""forced read over connection""" """forced read over connection"""
try: try:
self.request(READREQUEST, self.identifier[module, parameter]) self.request(READREQUEST, self.identifier[module, parameter])
except frappy.errors.SECoPError: except SECoPError as e:
# error reply message is already stored as readerror in cache result = self.cache[module, parameter]
pass if e == result.readerror:
# the update was already done in the rx thread
return result
# e was not originating from a secop error message e.g. a connection problem
# -> we have to do the error update
self.updateValue(module, parameter, None, time.time(), e)
return self.cache.get((module, parameter), None) return self.cache.get((module, parameter), None)
def getParameter(self, module, parameter, trycache=False): def getParameter(self, module, parameter, trycache=False):
@ -639,7 +708,7 @@ class SecopClient(ProxyClient):
argument = datatype.export_value(argument) argument = datatype.export_value(argument)
else: else:
if argument is not None: if argument is not None:
raise frappy.errors.WrongTypeError('command has no argument') raise WrongTypeError('command has no argument')
# pylint: disable=unsubscriptable-object # pylint: disable=unsubscriptable-object
data, qualifiers = self.request(COMMANDREQUEST, self.identifier[module, command], argument)[2] data, qualifiers = self.request(COMMANDREQUEST, self.identifier[module, command], argument)[2]
datatype = self.modules[module]['commands'][command]['datatype'].result datatype = self.modules[module]['commands'][command]['datatype'].result
@ -648,8 +717,12 @@ class SecopClient(ProxyClient):
return data, qualifiers return data, qualifiers
def updateValue(self, module, param, value, timestamp, readerror): def updateValue(self, module, param, value, timestamp, readerror):
entry = CacheItem(value, timestamp, readerror, datatype = self.modules[module]['parameters'][param]['datatype']
self.modules[module]['parameters'][param]['datatype']) if readerror:
assert isinstance(readerror, Exception)
else:
value = datatype.import_value(value)
entry = CacheItem(value, timestamp, readerror, datatype)
self.cache[(module, param)] = entry self.cache[(module, param)] = entry
self.callback(None, 'updateItem', module, param, entry) self.callback(None, 'updateItem', module, param, entry)
self.callback(module, 'updateItem', module, param, entry) self.callback(module, 'updateItem', module, param, entry)

113
frappy/client/interactive.py
View File

@ -28,8 +28,9 @@ import signal
import os import os
import traceback import traceback
import threading import threading
import logging
from os.path import expanduser from os.path import expanduser
from frappy.client import SecopClient from frappy.client import SecopClient, UnregisterCallback
from frappy.errors import SECoPError from frappy.errors import SECoPError
from frappy.datatypes import get_datatype, StatusType from frappy.datatypes import get_datatype, StatusType
try: try:
@ -55,40 +56,45 @@ watch(io, T=True) # watch io and all parameters of T
{tail}""" {tail}"""
LOG_LEVELS = {'debug', 'comlog', 'info', 'warning', 'error', 'off'} LOG_LEVELS = {
'debug': logging.DEBUG,
'comlog': logging.DEBUG+1,
'info': logging.INFO,
'warning': logging.WARN,
'error': logging.ERROR,
'off': logging.ERROR+1}
CLR = '\r\x1b[K' # code to move to the left and clear current line CLR = '\r\x1b[K' # code to move to the left and clear current line
class Logger: class Handler(logging.StreamHandler):
show_time = False def emit(self, record):
sigwinch = False super().emit(record)
if clientenv.sigwinch:
def __init__(self, loglevel='info'):
func = self.noop
for lev in 'debug', 'info', 'warning', 'error', 'exception':
if lev == loglevel:
func = self.emit
setattr(self, lev, func)
self._minute = 0
def emit(self, fmt, *args, **kwds):
if self.show_time:
now = time.time()
tm = time.localtime(now)
if tm.tm_min != self._minute:
self._minute = tm.tm_min
print(CLR + time.strftime('--- %H:%M:%S ---', tm))
sec = f'{now % 60.0:6.3f}'.replace(' ', '0')
print(CLR + sec, str(fmt) % args)
else:
print(CLR + (str(fmt) % args))
if self.sigwinch:
# SIGWINCH: 'window size has changed' -> triggers a refresh of the input line # SIGWINCH: 'window size has changed' -> triggers a refresh of the input line
os.kill(os.getpid(), signal.SIGWINCH) os.kill(os.getpid(), signal.SIGWINCH)
@staticmethod
def noop(fmt, *args, **kwds): class Logger(logging.Logger):
pass show_time = False
_minute = None
def __init__(self, name, loglevel='info'):
super().__init__(name, LOG_LEVELS.get(loglevel, logging.INFO))
handler = Handler()
handler.formatter = logging.Formatter('%(asctime)s%(message)s')
handler.formatter.formatTime = self.format_time
self.addHandler(handler)
def format_time(self, record, datefmt=None):
if self.show_time:
now = record.created
tm = time.localtime(now)
sec = f'{now % 60.0:6.3f}'.replace(' ', '0')
if tm.tm_min == self._minute:
return f'{CLR}{sec} '
self._minute = tm.tm_min
return f"{CLR}{time.strftime('--- %H:%M:%S ---', tm)}\n{sec} "
return ''
class PrettyFloat(float): class PrettyFloat(float):
@ -238,6 +244,9 @@ class Module:
return self.value return self.value
def __repr__(self): def __repr__(self):
return f'<module {self._name}>'
def showAll(self):
wid = max((len(k) for k in self._parameters), default=0) wid = max((len(k) for k in self._parameters), default=0)
return '%s\n%s%s' % ( return '%s\n%s%s' % (
self._title, self._title,
@ -271,10 +280,7 @@ class Param:
return value return value
def formatted(self, obj): def formatted(self, obj):
value, _, error = obj._secnode.cache[obj._name, self.name] return obj._secnode.cache[obj._name, self.name].formatted()
if error:
return repr(error)
return self.format(value)
def __set__(self, obj, value): def __set__(self, obj, value):
try: try:
@ -286,9 +292,6 @@ class Param:
clientenv.raise_with_short_traceback(e) clientenv.raise_with_short_traceback(e)
obj._secnode.log.error(repr(e)) obj._secnode.log.error(repr(e))
def format(self, value):
return self.datatype.format_value(value)
class Command: class Command:
def __init__(self, name, modname, secnode): def __init__(self, name, modname, secnode):
@ -337,9 +340,28 @@ def watch(*args, **kwds):
mobj._set_watching(arg) mobj._set_watching(arg)
print('---') print('---')
try: try:
nodes = set()
for mobj in modules: for mobj in modules:
nodes.add(mobj._secnode)
mobj._start_watching() mobj._start_watching()
time.sleep(3600)
close_event = threading.Event()
def close_node(online, state):
if online and state != 'shutdown':
return
close_event.set()
return UnregisterCallback
def handle_error(*_):
close_event.set()
return UnregisterCallback
for node in nodes:
node.register_callback(None, nodeStateChange=close_node, handleError=handle_error)
close_event.wait()
except KeyboardInterrupt as e: except KeyboardInterrupt as e:
clientenv.raise_with_short_traceback(e) clientenv.raise_with_short_traceback(e)
finally: finally:
@ -359,7 +381,7 @@ class Client(SecopClient):
clientenv.init(sys.modules['__main__'].__dict__) clientenv.init(sys.modules['__main__'].__dict__)
# remove previous client: # remove previous client:
prev = self.secnodes.pop(uri, None) prev = self.secnodes.pop(uri, None)
log = Logger(loglevel) log = Logger(name, loglevel)
removed_modules = [] removed_modules = []
if prev: if prev:
log.info('remove previous client to %s', uri) log.info('remove previous client to %s', uri)
@ -433,8 +455,10 @@ def run(filepath):
class ClientEnvironment: class ClientEnvironment:
namespace = None namespace = None
last_frames = 0 last_frames = 0
sigwinch = False
def init(self, namespace=None): def init(self, namespace=None):
self.nodes = []
self.namespace = namespace or {} self.namespace = namespace or {}
self.namespace.update(run=run, watch=watch, Client=Client) self.namespace.update(run=run, watch=watch, Client=Client)
@ -444,7 +468,7 @@ class ClientEnvironment:
raise exc raise exc
def short_traceback(self): def short_traceback(self):
"""cleanup tracback from irrelevant lines""" """cleanup traceback from irrelevant lines"""
lines = traceback.format_exception(*sys.exc_info()) lines = traceback.format_exception(*sys.exc_info())
# line 0: Traceback header # line 0: Traceback header
# skip line 1+2 (contains unspecific console line and exec code) # skip line 1+2 (contains unspecific console line and exec code)
@ -482,11 +506,15 @@ class Console(code.InteractiveConsole):
readline.write_history_file(history) readline.write_history_file(history)
def raw_input(self, prompt=""): def raw_input(self, prompt=""):
Logger.sigwinch = bool(readline) # activate refresh signal clientenv.sigwinch = bool(readline) # activate refresh signal
line = input(prompt) line = input(prompt)
Logger.sigwinch = False clientenv.sigwinch = False
if line.startswith('/'): if line.startswith('/'):
line = f"run('{line[1:].strip()}')" line = f"run('{line[1:].strip()}')"
module = clientenv.namespace.get(line.strip())
if isinstance(module, Module):
print(module.showAll())
line = ''
return line return line
def showtraceback(self): def showtraceback(self):
@ -499,7 +527,8 @@ def init(*nodes):
for idx, node in enumerate(nodes): for idx, node in enumerate(nodes):
client_name = '_c%d' % idx client_name = '_c%d' % idx
try: try:
clientenv.namespace[client_name] = Client(node, name=client_name) node = clientenv.namespace[client_name] = Client(node, name=client_name)
clientenv.nodes.append(node)
success = True success = True
except Exception as e: except Exception as e:
print(repr(e)) print(repr(e))

14
frappy/datatypes.py
View File

@ -1244,16 +1244,20 @@ UInt64 = IntRange(0, (1 << 64) - 1)
# Goodie: Convenience Datatypes for Programming # Goodie: Convenience Datatypes for Programming
class LimitsType(TupleOf): class LimitsType(TupleOf):
def __init__(self, members): def __init__(self, member):
super().__init__(members, members) super().__init__(member, member)
def __call__(self, value): def validate(self, value, previous=None):
"""accepts an ordered tuple of numeric member types""" """accepts an ordered tuple of numeric member types"""
limits = TupleOf.validate(self, value) limits = TupleOf.validate(self, value, previous)
if limits[1] < limits[0]: if limits[1] < limits[0]:
raise RangeError(f'Maximum Value {limits[1]} must be greater than minimum value {limits[0]}!') raise RangeError(f'maximum value {limits[1]} must be greater than '
f'minimum value {limits[0]}')
return limits return limits
def copy(self):
return LimitsType(TupleOf.copy(self).members[0])
class StatusType(TupleOf): class StatusType(TupleOf):
"""convenience type for status """convenience type for status

4
frappy/errors.py
View File

@ -218,7 +218,7 @@ class IsErrorError(SECoPError):
class DisabledError(SECoPError): class DisabledError(SECoPError):
"""The requested action can not be performed while the module is disabled""" """The requested action can not be performed while the module is disabled"""
name = 'disabled' name = 'Disabled'
class ImpossibleError(SECoPError): class ImpossibleError(SECoPError):
@ -232,7 +232,7 @@ class ReadFailedError(SECoPError):
class OutOfRangeError(SECoPError): class OutOfRangeError(SECoPError):
"""The requested parameter can not be read just now""" """The value read from the hardware is out of sensor or calibration range"""
name = 'OutOfRange' name = 'OutOfRange'

304
frappy/extparams.py Normal file
View File

@ -0,0 +1,304 @@
# *****************************************************************************
#
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Module authors:
# Markus Zolliker <markus.zolliker@psi.ch>
#
# *****************************************************************************
"""extended parameters
special parameter classes with some automatic functionality
"""
import re
from frappy.core import Parameter, Property
from frappy.datatypes import BoolType, DataType, DataTypeType, EnumType, \
FloatRange, StringType, StructOf, ValueType
from frappy.errors import ProgrammingError
class StructParam(Parameter):
"""convenience class to create a struct Parameter together with individual params
Usage:
class Controller(Drivable):
...
ctrlpars = StructParam('ctrlpars struct', [
('pid_p', 'p', Parameter('control parameter p', FloatRange())),
('pid_i', 'i', Parameter('control parameter i', FloatRange())),
('pid_d', 'd', Parameter('control parameter d', FloatRange())),
], readonly=False)
...
then implement either read_ctrlpars and write_ctrlpars or
read_pid_p, read_pid_i, read_pid_d, write_pid_p, write_pid_i and write_pid_d
the methods not implemented will be created automatically
"""
# use properties, as simple attributes are not considered on copy()
paramdict = Property('dict <parametername> of Parameter(...)', ValueType())
hasStructRW = Property('has a read_<struct param> or write_<struct param> method',
BoolType(), default=False)
insideRW = 0 # counter for avoiding multiple superfluous updates
def __init__(self, description=None, paramdict=None, prefix_or_map='', *, datatype=None, readonly=False, **kwds):
"""create a struct parameter together with individual parameters
in addition to normal Parameter arguments:
:param paramdict: dict <member name> of Parameter(...)
:param prefix_or_map: either a prefix for the parameter name to add to the member name
or a dict <member name> or <parameter name>
"""
if isinstance(paramdict, DataType):
raise ProgrammingError('second argument must be a dict of Param')
if datatype is None and paramdict is not None: # omit the following on Parameter.copy()
if isinstance(prefix_or_map, str):
prefix_or_map = {m: prefix_or_map + m for m in paramdict}
for membername, param in paramdict.items():
param.name = prefix_or_map[membername]
datatype = StructOf(**{m: p.datatype for m, p in paramdict.items()})
kwds['influences'] = [p.name for p in paramdict.values()]
self.updateEnable = {}
if paramdict:
kwds['paramdict'] = paramdict
super().__init__(description, datatype, readonly=readonly, **kwds)
def __set_name__(self, owner, name):
# names of access methods of structed param (e.g. ctrlpars)
struct_read_name = f'read_{name}' # e.g. 'read_ctrlpars'
struct_write_name = f'write_{name}' # e.h. 'write_ctrlpars'
self.hasStructRW = hasattr(owner, struct_read_name) or hasattr(owner, struct_write_name)
for membername, param in self.paramdict.items():
pname = param.name
changes = {
'readonly': self.readonly,
'influences': set(param.influences) | {name},
}
param.ownProperties.update(changes)
param.init(changes)
setattr(owner, pname, param)
param.__set_name__(owner, param.name)
if self.hasStructRW:
rname = f'read_{pname}'
if not hasattr(owner, rname):
def rfunc(self, membername=membername, struct_read_name=struct_read_name):
return getattr(self, struct_read_name)()[membername]
rfunc.poll = False # read_<struct param> is polled only
setattr(owner, rname, rfunc)
if not self.readonly:
wname = f'write_{pname}'
if not hasattr(owner, wname):
def wfunc(self, value, membername=membername,
name=name, rname=rname, struct_write_name=struct_write_name):
valuedict = dict(getattr(self, name))
valuedict[membername] = value
getattr(self, struct_write_name)(valuedict)
return getattr(self, rname)()
setattr(owner, wname, wfunc)
if not self.hasStructRW:
if not hasattr(owner, struct_read_name):
def struct_read_func(self, name=name, flist=tuple(
(m, f'read_{p.name}') for m, p in self.paramdict.items())):
pobj = self.parameters[name]
# disable updates generated from the callbacks of individual params
pobj.insideRW += 1 # guarded by self.accessLock
try:
return {m: getattr(self, f)() for m, f in flist}
finally:
pobj.insideRW -= 1
setattr(owner, struct_read_name, struct_read_func)
if not (self.readonly or hasattr(owner, struct_write_name)):
def struct_write_func(self, value, name=name, funclist=tuple(
(m, f'write_{p.name}') for m, p in self.paramdict.items())):
pobj = self.parameters[name]
pobj.insideRW += 1 # guarded by self.accessLock
try:
return {m: getattr(self, f)(value[m]) for m, f in funclist}
finally:
pobj.insideRW -= 1
setattr(owner, struct_write_name, struct_write_func)
super().__set_name__(owner, name)
def finish(self, modobj=None):
"""register callbacks for consistency"""
super().finish(modobj)
if modobj:
if self.hasStructRW:
def cb(value, modobj=modobj, structparam=self):
for membername, param in structparam.paramdict.items():
setattr(modobj, param.name, value[membername])
modobj.addCallback(self.name, cb)
else:
for membername, param in self.paramdict.items():
def cb(value, modobj=modobj, structparam=self, membername=membername):
if not structparam.insideRW:
prev = dict(getattr(modobj, structparam.name))
prev[membername] = value
setattr(modobj, structparam.name, prev)
modobj.addCallback(param.name, cb)
class FloatEnumParam(Parameter):
"""combine enum and float parameter
Example Usage:
vrange = FloatEnumParam('sensor range', ['500uV', '20mV', '1V'], 'V')
The following will be created automatically:
- the parameter vrange will get a datatype FloatRange(5e-4, 1, unit='V')
- an additional parameter `vrange_idx` will be created with an enum type
{'500uV': 0, '20mV': 1, '1V': 2}
- the method `write_vrange` will be created automatically
However, the methods `write_vrange_idx` and `read_vrange_idx`, if needed,
have to implemented by the programmer.
Writing to the float parameter involves 'rounding' to the closest allowed value.
Customization:
The individual labels might be customized by defining them as a tuple
(<index>, <label>, <float value>) where either the index or the float value
may be omitted.
When the index is omitted, the element will be the previous index + 1 or
0 when it is the first element.
Omitted values will be determined from the label, assuming that they use
one of the predefined unit prefixes together with the given unit.
The name of the index parameter is by default '<name>_idx' but might be
changed with the idx_name argument.
"""
# use properties, as simple attributes are not considered on copy()
idx_name = Property('name of attached index parameter', StringType(), default='')
valuedict = Property('dict <index> of <value>', ValueType(dict))
enumtype = Property('dict <label> of <index', DataTypeType())
# TODO: factor out unit handling, at the latest when needed elsewhere
PREFIXES = {'q': -30, 'r': -27, 'y': -24, 'z': -21, 'a': -18, 'f': -15,
'p': -12, 'n': -9, 'u': -6, 'µ': -6, 'm': -3,
'': 0, 'k': 3, 'M': 6, 'G': 9, 'T': 12,
'P': 15, 'E': 18, 'Z': 21, 'Y': 24, 'R': 25, 'Q': 30}
def __init__(self, description=None, labels=None, unit='',
*, datatype=None, readonly=False, **kwds):
if labels is None:
# called on Parameter.copy()
super().__init__(description, datatype, readonly=readonly, **kwds)
return
if isinstance(labels, DataType):
raise ProgrammingError('second argument must be a list of labels, not a datatype')
nextidx = 0
try:
edict = {}
vdict = {}
for elem in labels:
if isinstance(elem, str):
idx, label = [nextidx, elem]
else:
if isinstance(elem[0], str):
elem = [nextidx] + list(elem)
idx, label, *tail = elem
if tail:
vdict[idx], = tail
edict[label] = idx
nextidx = idx + 1
except (ValueError, TypeError) as e:
raise ProgrammingError('labels must be a list of labels or tuples '
'([index], label, [value])') from e
pat = re.compile(rf'([+-]?\d*\.?\d*) *({"|".join(self.PREFIXES)}){unit}$')
try:
# determine missing values from labels
for label, idx in edict.items():
if idx not in vdict:
value, prefix = pat.match(label).groups()
vdict[idx] = float(f'{value}e{self.PREFIXES[prefix]}')
except (AttributeError, ValueError) as e:
raise ProgrammingError(f"{label!r} has not the form '<float><prefix>{unit}'") from e
try:
enumtype = EnumType(**edict)
except TypeError as e:
raise ProgrammingError(str(e)) from e
datatype = FloatRange(min(vdict.values()), max(vdict.values()), unit=unit)
super().__init__(description, datatype, enumtype=enumtype, valuedict=vdict,
readonly=readonly, **kwds)
def __set_name__(self, owner, name):
super().__set_name__(owner, name)
if not self.idx_name:
self.idx_name = name + '_idx'
iname = self.idx_name
idx_param = Parameter(f'index of {name}', self.enumtype,
readonly=self.readonly, influences={name})
idx_param.init({})
setattr(owner, iname, idx_param)
idx_param.__set_name__(owner, iname)
self.setProperty('influences', {iname})
if not hasattr(owner, f'write_{name}'):
# customization (like rounding up or down) might be
# achieved by adding write_<name>. if not, the default
# is rounding to the closest value
def wfunc(mobj, value, vdict=self.valuedict, fname=name, wfunc_iname=f'write_{iname}'):
getattr(mobj, wfunc_iname)(
min(vdict, key=lambda i: abs(vdict[i] - value)))
return getattr(mobj, fname)
setattr(owner, f'write_{name}', wfunc)
def __get__(self, instance, owner):
"""getter for value"""
if instance is None:
return self
return self.valuedict[instance.parameters[self.idx_name].value]
def trigger_setter(self, modobj, _):
# trigger update of float parameter on change of enum parameter
modobj.announceUpdate(self.name, getattr(modobj, self.name))
def finish(self, modobj=None):
"""register callbacks for consistency"""
super().finish(modobj)
if modobj:
modobj.addCallback(self.idx_name, self.trigger_setter, modobj)

56
frappy/gui/inputwidgets.py
View File

@ -1,6 +1,10 @@
from frappy.gui.qt import QCheckBox, QComboBox, QLineEdit, pyqtSignal import sys
from frappy.datatypes import BoolType, EnumType from frappy.gui.qt import QCheckBox, QComboBox, QDoubleSpinBox, QLineEdit, \
QSpinBox, pyqtSignal
from frappy.datatypes import BoolType, EnumType, FloatRange, IntRange, \
StringType, TextType
# ArrayOf, BLOBType, FloatRange, IntRange, StringType, StructOf, TextType, TupleOf # ArrayOf, BLOBType, FloatRange, IntRange, StringType, StructOf, TextType, TupleOf
@ -9,11 +13,24 @@ def get_input_widget(datatype, parent=None):
return { return {
EnumType: EnumInput, EnumType: EnumInput,
BoolType: BoolInput, BoolType: BoolInput,
IntRange: IntInput,
StringType: StringInput,
TextType: StringInput,
}.get(datatype.__class__, GenericInput)(datatype, parent) }.get(datatype.__class__, GenericInput)(datatype, parent)
class GenericInput(QLineEdit): class InputBase:
submitted = pyqtSignal() submitted = pyqtSignal()
input_feedback = pyqtSignal(str)
def get_input(self):
raise NotImplementedError
def submit(self):
self.submitted.emit()
class GenericInput(InputBase, QLineEdit):
def __init__(self, datatype, parent=None): def __init__(self, datatype, parent=None):
super().__init__(parent) super().__init__(parent)
self.datatype = datatype self.datatype = datatype
@ -23,12 +40,28 @@ class GenericInput(QLineEdit):
def get_input(self): def get_input(self):
return self.datatype.from_string(self.text()) return self.datatype.from_string(self.text())
def submit(self):
self.submitted.emit() class StringInput(GenericInput):
def __init__(self, datatype, parent=None):
super().__init__(datatype, parent)
class EnumInput(QComboBox): class IntInput(InputBase, QSpinBox):
submitted = pyqtSignal() def __init__(self, datatype, parent=None):
super().__init__(parent)
self.datatype = datatype
# we dont use setMaximum and setMinimum because it is quite restrictive
# when typing, so set it as high as possible
self.setMaximum(2147483647)
self.setMinimum(-2147483648)
self.lineEdit().returnPressed.connect(self.submit)
def get_input(self):
return self.datatype(self.value())
class EnumInput(InputBase, QComboBox):
def __init__(self, datatype, parent=None): def __init__(self, datatype, parent=None):
super().__init__(parent) super().__init__(parent)
self.setPlaceholderText('choose value') self.setPlaceholderText('choose value')
@ -45,18 +78,11 @@ class EnumInput(QComboBox):
def get_input(self): def get_input(self):
return self._map[self.currentIndex()].value return self._map[self.currentIndex()].value
def submit(self):
self.submitted.emit()
class BoolInput(InputBase, QCheckBox):
class BoolInput(QCheckBox):
submitted = pyqtSignal()
def __init__(self, datatype, parent=None): def __init__(self, datatype, parent=None):
super().__init__(parent) super().__init__(parent)
self.datatype = datatype self.datatype = datatype
def get_input(self): def get_input(self):
return self.isChecked() return self.isChecked()
def submit(self):
self.submitted.emit()

15
frappy/gui/modulewidget.py
View File

@ -24,9 +24,9 @@ from frappy.gui.qt import QColor, QDialog, QHBoxLayout, QIcon, QLabel, \
QLineEdit, QMessageBox, QPropertyAnimation, QPushButton, Qt, QToolButton, \ QLineEdit, QMessageBox, QPropertyAnimation, QPushButton, Qt, QToolButton, \
QWidget, pyqtProperty, pyqtSignal QWidget, pyqtProperty, pyqtSignal
from frappy.gui.inputwidgets import get_input_widget
from frappy.gui.util import Colors, loadUi from frappy.gui.util import Colors, loadUi
from frappy.gui.valuewidgets import get_widget from frappy.gui.valuewidgets import get_widget
from frappy.gui.inputwidgets import get_input_widget
class CommandDialog(QDialog): class CommandDialog(QDialog):
@ -54,7 +54,11 @@ class CommandDialog(QDialog):
self.resize(self.sizeHint()) self.resize(self.sizeHint())
def get_value(self): def get_value(self):
return True, self.widgets[0].get_value() try:
return self.widgets[0].get_value()
except Exception as e:
QMessageBox.warning(self.parent(), 'Operation failed', str(e))
return None
def exec(self): def exec(self):
if super().exec(): if super().exec():
@ -95,8 +99,9 @@ class CommandButton(QPushButton):
if self._argintype: if self._argintype:
dlg = CommandDialog(self._cmdname, self._argintype) dlg = CommandDialog(self._cmdname, self._argintype)
args = dlg.exec() args = dlg.exec()
if args: # not 'Cancel' clicked if args is not None:
self._cb(self._cmdname, args[1]) # no errors when converting value and 'Cancel' wasn't clicked
self._cb(self._cmdname, args)
else: else:
# no need for arguments # no need for arguments
self._cb(self._cmdname, None) self._cb(self._cmdname, None)
@ -442,8 +447,8 @@ class ModuleWidget(QWidget):
self.paramDetails.emit(self._name, param) self.paramDetails.emit(self._name, param)
def _button_pressed(self, param): def _button_pressed(self, param):
target = self._paramInputs[param].get_input()
try: try:
target = self._paramInputs[param].get_input()
self._node.setParameter(self._name, param, target) self._node.setParameter(self._name, param, target)
except Exception as e: except Exception as e:
QMessageBox.warning(self.parent(), 'Operation failed', str(e)) QMessageBox.warning(self.parent(), 'Operation failed', str(e))

12
frappy/gui/qt.py
View File

@ -42,10 +42,10 @@ try:
QDialogButtonBox, QDoubleSpinBox, QFileDialog, QFrame, QGridLayout, \ QDialogButtonBox, QDoubleSpinBox, QFileDialog, QFrame, QGridLayout, \
QGroupBox, QHBoxLayout, QInputDialog, QLabel, QLineEdit, QMainWindow, \ QGroupBox, QHBoxLayout, QInputDialog, QLabel, QLineEdit, QMainWindow, \
QMenu, QMessageBox, QPlainTextEdit, QPushButton, QRadioButton, \ QMenu, QMessageBox, QPlainTextEdit, QPushButton, QRadioButton, \
QScrollArea, QSizePolicy, QSpacerItem, QSpinBox, QStyle, \ QScrollArea, QSizePolicy, QSlider, QSpacerItem, QSpinBox, QStyle, \
QStyleOptionTab, QStylePainter, QTabBar, QTabWidget, QTextEdit, \ QStyleOptionTab, QStylePainter, QTabBar, QTabWidget, QTextEdit, \
QToolButton, QTreeView, QTreeWidget, QTreeWidgetItem, QVBoxLayout, \ QToolButton, QTreeView, QTreeWidget, QTreeWidgetItem, QVBoxLayout, \
QWidget,QSlider QWidget
import frappy.gui.resources_qt6 import frappy.gui.resources_qt6
@ -62,9 +62,9 @@ except ImportError as e:
QDialog, QDialogButtonBox, QDoubleSpinBox, QFileDialog, QFrame, \ QDialog, QDialogButtonBox, QDoubleSpinBox, QFileDialog, QFrame, \
QGridLayout, QGroupBox, QHBoxLayout, QInputDialog, QLabel, QLineEdit, \ QGridLayout, QGroupBox, QHBoxLayout, QInputDialog, QLabel, QLineEdit, \
QMainWindow, QMenu, QMessageBox, QPlainTextEdit, QPushButton, \ QMainWindow, QMenu, QMessageBox, QPlainTextEdit, QPushButton, \
QRadioButton, QScrollArea, QShortcut, QSizePolicy, QSpacerItem, \ QRadioButton, QScrollArea, QShortcut, QSizePolicy, QSlider, \
QSpinBox, QStyle, QStyleOptionTab, QStylePainter, QTabBar, \ QSpacerItem, QSpinBox, QStyle, QStyleOptionTab, QStylePainter, \
QTabWidget, QTextEdit, QToolButton, QTreeView, QTreeWidget, \ QTabBar, QTabWidget, QTextEdit, QToolButton, QTreeView, QTreeWidget, \
QTreeWidgetItem, QVBoxLayout, QWidget, QSlider QTreeWidgetItem, QVBoxLayout, QWidget
import frappy.gui.resources_qt5 import frappy.gui.resources_qt5

1
frappy/io.py
View File

@ -61,7 +61,6 @@ class HasIO(Module):
ioname = opts.get('io') or f'{name}_io' ioname = opts.get('io') or f'{name}_io'
io = self.ioClass(ioname, srv.log.getChild(ioname), opts, srv) # pylint: disable=not-callable io = self.ioClass(ioname, srv.log.getChild(ioname), opts, srv) # pylint: disable=not-callable
io.callingModule = [] io.callingModule = []
srv.modules[ioname] = io
srv.secnode.add_module(io, ioname) srv.secnode.add_module(io, ioname)
self.ioDict[self.uri] = ioname self.ioDict[self.uri] = ioname
self.io = ioname self.io = ioname

1
frappy/lib/sequence.py
View File

@ -141,6 +141,7 @@ class SequencerMixin:
return self.Status.IDLE, '' return self.Status.IDLE, ''
def stop(self): def stop(self):
"""stop sequence"""
if self.seq_is_alive(): if self.seq_is_alive():
self._seq_stopflag = True self._seq_stopflag = True

99
frappy/modulebase.py
View File

@ -83,15 +83,14 @@ class HasAccessibles(HasProperties):
override_values.pop(key, None) override_values.pop(key, None)
elif key in accessibles: elif key in accessibles:
override_values[key] = value override_values[key] = value
# remark: merged_properties contain already the properties of accessibles of cls
for aname, aobj in list(accessibles.items()): for aname, aobj in list(accessibles.items()):
if aname in override_values: if aname in override_values:
aobj = aobj.copy()
value = override_values[aname] value = override_values[aname]
if value is None: if value is None:
accessibles.pop(aname) accessibles.pop(aname)
continue continue
aobj.merge(merged_properties[aname]) aobj = aobj.create_from_value(merged_properties[aname], value)
aobj.override(value)
# replace the bare value by the created accessible # replace the bare value by the created accessible
setattr(cls, aname, aobj) setattr(cls, aname, aobj)
else: else:
@ -334,8 +333,7 @@ class Module(HasAccessibles):
self.secNode = srv.secnode self.secNode = srv.secnode
self.log = logger self.log = logger
self.name = name self.name = name
self.valueCallbacks = {} self.paramCallbacks = {}
self.errorCallbacks = {}
self.earlyInitDone = False self.earlyInitDone = False
self.initModuleDone = False self.initModuleDone = False
self.startModuleDone = False self.startModuleDone = False
@ -469,8 +467,7 @@ class Module(HasAccessibles):
apply default when no value is given (in cfg or as Parameter argument) apply default when no value is given (in cfg or as Parameter argument)
or complain, when cfg is needed or complain, when cfg is needed
""" """
self.valueCallbacks[pname] = [] self.paramCallbacks[pname] = []
self.errorCallbacks[pname] = []
if isinstance(pobj, Limit): if isinstance(pobj, Limit):
basepname = pname.rpartition('_')[0] basepname = pname.rpartition('_')[0]
baseparam = self.parameters.get(basepname) baseparam = self.parameters.get(basepname)
@ -535,68 +532,46 @@ class Module(HasAccessibles):
err.report_error = False err.report_error = False
return # no updates for repeated errors return # no updates for repeated errors
err = secop_error(err) err = secop_error(err)
elif not changed and timestamp < (pobj.timestamp or 0) + pobj.omit_unchanged_within: value_err = value, err
else:
if not changed and timestamp < (pobj.timestamp or 0) + pobj.omit_unchanged_within:
# no change within short time -> omit # no change within short time -> omit
return return
value_err = (value,)
pobj.timestamp = timestamp or time.time() pobj.timestamp = timestamp or time.time()
if err: pobj.readerror = err
callbacks = self.errorCallbacks for cbfunc, cbargs in self.paramCallbacks[pname]:
pobj.readerror = arg = err try:
else: cbfunc(*cbargs, *value_err)
callbacks = self.valueCallbacks except Exception:
arg = value pass
pobj.readerror = None
if pobj.export: if pobj.export:
self.updateCallback(self, pobj) self.updateCallback(self, pobj)
cblist = callbacks[pname]
for cb in cblist: def addCallback(self, pname, callback_function, *args):
try: self.paramCallbacks[pname].append((callback_function, args))
cb(arg)
except Exception:
# print(formatExtendedTraceback())
pass
def registerCallbacks(self, modobj, autoupdate=()): def registerCallbacks(self, modobj, autoupdate=()):
"""register callbacks to another module <modobj> """register callbacks to another module <modobj>
- whenever a self.<param> changes: whenever a self.<param> changes or changes its error state:
<modobj>.update_<param> is called with the new value as argument. <modobj>.update_param(<value> [, <exc>]) is called,
If this method raises an exception, <modobj>.<param> gets into an error state. where <value> is the new value and <exc> is given only in case of error.
If the method does not exist and <param> is in autoupdate, if the method does not exist, and <param> is in autoupdate
<modobj>.<param> is updated to self.<param> <modobj>.announceUpdate(<pname>, <value>, <exc>) is called
- whenever <self>.<param> gets into an error state: with <exc> being None in case of no error.
<modobj>.error_update_<param> is called with the exception as argument.
If this method raises an error, <modobj>.<param> gets into an error state.
If this method does not exist, and <param> is in autoupdate,
<modobj>.<param> gets into the same error state as self.<param>
"""
for pname in self.parameters:
errfunc = getattr(modobj, 'error_update_' + pname, None)
if errfunc:
def errcb(err, p=pname, efunc=errfunc):
try:
efunc(err)
except Exception as e:
modobj.announceUpdate(p, err=e)
self.errorCallbacks[pname].append(errcb)
else:
def errcb(err, p=pname):
modobj.announceUpdate(p, err=err)
if pname in autoupdate:
self.errorCallbacks[pname].append(errcb)
updfunc = getattr(modobj, 'update_' + pname, None) Remark: when <modobj>.update_<param> does not accept the <exc> argument,
if updfunc: nothing happens (the callback is catched by try / except).
def cb(value, ufunc=updfunc, efunc=errcb): Any exceptions raised by the callback function are silently ignored.
try: """
ufunc(value) autoupdate = set(autoupdate)
except Exception as e: for pname in self.parameters:
efunc(e) cbfunc = getattr(modobj, 'update_' + pname, None)
self.valueCallbacks[pname].append(cb) if cbfunc:
self.addCallback(pname, cbfunc)
elif pname in autoupdate: elif pname in autoupdate:
def cb(value, p=pname): self.addCallback(pname, modobj.announceUpdate, pname)
modobj.announceUpdate(p, value)
self.valueCallbacks[pname].append(cb)
def isBusy(self, status=None): def isBusy(self, status=None):
"""helper function for treating substates of BUSY correctly""" """helper function for treating substates of BUSY correctly"""
@ -614,6 +589,10 @@ class Module(HasAccessibles):
# enablePoll == False: we still need the poll thread for writing values from writeDict # enablePoll == False: we still need the poll thread for writing values from writeDict
if hasattr(self, 'io'): if hasattr(self, 'io'):
self.io.polledModules.append(self) self.io.polledModules.append(self)
if not self.io.triggerPoll:
# when self.io.enablePoll is False, triggerPoll is not
# created for self.io in the else clause below
self.io.triggerPoll = threading.Event()
else: else:
self.triggerPoll = threading.Event() self.triggerPoll = threading.Event()
self.polledModules.append(self) self.polledModules.append(self)
@ -713,8 +692,8 @@ class Module(HasAccessibles):
for mobj in polled_modules: for mobj in polled_modules:
pinfo = mobj.pollInfo = PollInfo(mobj.pollinterval, self.triggerPoll) pinfo = mobj.pollInfo = PollInfo(mobj.pollinterval, self.triggerPoll)
# trigger a poll interval change when self.pollinterval changes. # trigger a poll interval change when self.pollinterval changes.
if 'pollinterval' in mobj.valueCallbacks: if 'pollinterval' in mobj.paramCallbacks:
mobj.valueCallbacks['pollinterval'].append(pinfo.update_interval) mobj.addCallback('pollinterval', pinfo.update_interval)
for pname, pobj in mobj.parameters.items(): for pname, pobj in mobj.parameters.items():
rfunc = getattr(mobj, 'read_' + pname) rfunc = getattr(mobj, 'read_' + pname)

3
frappy/modules.py
View File

@ -36,6 +36,7 @@ from .modulebase import Module
class Readable(Module): class Readable(Module):
"""basic readable module""" """basic readable module"""
# pylint: disable=invalid-name
Status = Enum('Status', Status = Enum('Status',
IDLE=StatusType.IDLE, IDLE=StatusType.IDLE,
WARN=StatusType.WARN, WARN=StatusType.WARN,
@ -92,7 +93,7 @@ class Drivable(Writable):
@Command(None, result=None) @Command(None, result=None)
def stop(self): def stop(self):
"""cease driving, go to IDLE state""" """not implemented - this is a no-op"""
class Communicator(HasComlog, Module): class Communicator(HasComlog, Module):

87
frappy/params.py
View File

@ -57,13 +57,17 @@ class Accessible(HasProperties):
def as_dict(self): def as_dict(self):
return self.propertyValues return self.propertyValues
def override(self, value): def create_from_value(self, properties, value):
"""override with a bare value""" """return a clone with given value and inherited properties"""
raise NotImplementedError
def clone(self, properties, **kwds):
"""return a clone of ourselfs with inherited properties"""
raise NotImplementedError raise NotImplementedError
def copy(self): def copy(self):
"""return a (deep) copy of ourselfs""" """return a (deep) copy of ourselfs"""
raise NotImplementedError return self.clone(self.propertyValues)
def updateProperties(self, merged_properties): def updateProperties(self, merged_properties):
"""update merged_properties with our own properties""" """update merged_properties with our own properties"""
@ -94,6 +98,16 @@ class Accessible(HasProperties):
props.append(f'{k}={v!r}') props.append(f'{k}={v!r}')
return f"{self.__class__.__name__}({', '.join(props)})" return f"{self.__class__.__name__}({', '.join(props)})"
def fixExport(self):
if self.export is True:
predefined_cls = PREDEFINED_ACCESSIBLES.get(self.name)
if predefined_cls is None:
self.export = '_' + self.name
elif isinstance(self, predefined_cls):
self.export = self.name
else:
raise ProgrammingError(f'can not use {self.name!r} as name of a {type(self).__name__}')
class Parameter(Accessible): class Parameter(Accessible):
"""defines a parameter """defines a parameter
@ -221,26 +235,17 @@ class Parameter(Accessible):
self.name = name self.name = name
if isinstance(self.datatype, EnumType): if isinstance(self.datatype, EnumType):
self.datatype.set_name(name) self.datatype.set_name(name)
self.fixExport()
if self.export is True: def clone(self, properties, **kwds):
predefined_cls = PREDEFINED_ACCESSIBLES.get(self.name, None) """return a clone of ourselfs with inherited properties"""
if predefined_cls is Parameter: res = type(self)(**kwds)
self.export = self.name
elif predefined_cls is None:
self.export = '_' + self.name
else:
raise ProgrammingError(f'can not use {self.name!r} as name of a Parameter')
if 'export' in self.ownProperties:
# avoid export=True overrides export=<name>
self.ownProperties['export'] = self.export
def copy(self):
"""return a (deep) copy of ourselfs"""
res = type(self)()
res.name = self.name res.name = self.name
res.init(self.propertyValues) res.init(properties)
res.init(res.ownProperties)
if 'datatype' in self.propertyValues: if 'datatype' in self.propertyValues:
res.datatype = res.datatype.copy() res.datatype = res.datatype.copy()
res.finish()
return res return res
def updateProperties(self, merged_properties): def updateProperties(self, merged_properties):
@ -253,9 +258,9 @@ class Parameter(Accessible):
merged_properties.pop(key) merged_properties.pop(key)
merged_properties.update(self.ownProperties) merged_properties.update(self.ownProperties)
def override(self, value): def create_from_value(self, properties, value):
"""override default""" """return a clone with given value and inherited properties"""
self.value = self.datatype(value) return self.clone(properties, value=self.datatype(value))
def merge(self, merged_properties): def merge(self, merged_properties):
"""merge with inherited properties """merge with inherited properties
@ -274,7 +279,7 @@ class Parameter(Accessible):
:param modobj: final call, called from Module.__init__ :param modobj: final call, called from Module.__init__
""" """
self.fixExport()
if self.constant is not None: if self.constant is not None:
constant = self.datatype(self.constant) constant = self.datatype(self.constant)
# The value of the `constant` property should be the # The value of the `constant` property should be the
@ -390,7 +395,7 @@ class Command(Accessible):
else: else:
# goodie: allow @Command instead of @Command() # goodie: allow @Command instead of @Command()
self.func = argument # this is the wrapped method! self.func = argument # this is the wrapped method!
if argument.__doc__: if argument.__doc__ is not None:
self.description = inspect.cleandoc(argument.__doc__) self.description = inspect.cleandoc(argument.__doc__)
self.name = self.func.__name__ # this is probably not needed self.name = self.func.__name__ # this is probably not needed
self._inherit = inherit # save for __set_name__ self._inherit = inherit # save for __set_name__
@ -401,18 +406,8 @@ class Command(Accessible):
if self.func is None: if self.func is None:
raise ProgrammingError(f'Command {owner.__name__}.{name} must be used as a method decorator') raise ProgrammingError(f'Command {owner.__name__}.{name} must be used as a method decorator')
self.fixExport()
self.datatype = CommandType(self.argument, self.result) self.datatype = CommandType(self.argument, self.result)
if self.export is True:
predefined_cls = PREDEFINED_ACCESSIBLES.get(name, None)
if predefined_cls is Command:
self.export = name
elif predefined_cls is None:
self.export = '_' + name
else:
raise ProgrammingError(f'can not use {name!r} as name of a Command') from None
if 'export' in self.ownProperties:
# avoid export=True overrides export=<name>
self.ownProperties['export'] = self.export
if not self._inherit: if not self._inherit:
for key, pobj in self.properties.items(): for key, pobj in self.properties.items():
if key not in self.propertyValues: if key not in self.propertyValues:
@ -439,38 +434,38 @@ class Command(Accessible):
f' members!: {params} != {members}') f' members!: {params} != {members}')
self.argument.optional = [p for p,v in sig.parameters.items() self.argument.optional = [p for p,v in sig.parameters.items()
if v.default is not inspect.Parameter.empty] if v.default is not inspect.Parameter.empty]
if 'description' not in self.propertyValues and func.__doc__: if 'description' not in self.ownProperties and func.__doc__ is not None:
self.description = inspect.cleandoc(func.__doc__) self.description = inspect.cleandoc(func.__doc__)
self.ownProperties['description'] = self.description self.ownProperties['description'] = self.description
self.func = func self.func = func
return self return self
def copy(self): def clone(self, properties, **kwds):
"""return a (deep) copy of ourselfs""" """return a clone of ourselfs with inherited properties"""
res = type(self)() res = type(self)(**kwds)
res.name = self.name res.name = self.name
self.fixExport()
res.func = self.func res.func = self.func
res.init(self.propertyValues) res.init(properties)
res.init(res.ownProperties)
if res.argument: if res.argument:
res.argument = res.argument.copy() res.argument = res.argument.copy()
if res.result: if res.result:
res.result = res.result.copy() res.result = res.result.copy()
self.finish() res.finish()
return res return res
def updateProperties(self, merged_properties): def updateProperties(self, merged_properties):
"""update merged_properties with our own properties""" """update merged_properties with our own properties"""
merged_properties.update(self.ownProperties) merged_properties.update(self.ownProperties)
def override(self, value): def create_from_value(self, properties, value):
"""override method """return a clone with given value and inherited properties
this is needed when the @Command is missing on a method overriding a command""" this is needed when the @Command is missing on a method overriding a command"""
if not callable(value): if not callable(value):
raise ProgrammingError(f'{self.name} = {value!r} is overriding a Command') raise ProgrammingError(f'{self.name} = {value!r} is overriding a Command')
self.func = value return self.clone(properties)(value)
if value.__doc__:
self.description = inspect.cleandoc(value.__doc__)
def merge(self, merged_properties): def merge(self, merged_properties):
"""merge with inherited properties """merge with inherited properties

8
frappy/persistent.py
View File

@ -84,9 +84,7 @@ class PersistentMixin(Module):
flag = getattr(pobj, 'persistent', False) flag = getattr(pobj, 'persistent', False)
if flag: if flag:
if flag == 'auto': if flag == 'auto':
def cb(value, m=self): self.addCallback(pname, self.saveParameters)
m.saveParameters()
self.valueCallbacks[pname].append(cb)
self.initData[pname] = pobj.value self.initData[pname] = pobj.value
if not pobj.given: if not pobj.given:
if pname in loaded: if pname in loaded:
@ -129,12 +127,14 @@ class PersistentMixin(Module):
self.writeInitParams() self.writeInitParams()
return loaded return loaded
def saveParameters(self): def saveParameters(self, _=None):
"""save persistent parameters """save persistent parameters
- to be called regularly explicitly by the module - to be called regularly explicitly by the module
- the caller has to make sure that this is not called after - the caller has to make sure that this is not called after
a power down of the connected hardware before loadParameters a power down of the connected hardware before loadParameters
dummy argument to avoid closure for callback
""" """
if self.writeDict: if self.writeDict:
# do not save before all values are written to the hw, as potentially # do not save before all values are written to the hw, as potentially

6
frappy/protocol/dispatcher.py
View File

@ -47,9 +47,11 @@ def make_update(modulename, pobj):
if pobj.readerror: if pobj.readerror:
return (ERRORPREFIX + EVENTREPLY, f'{modulename}:{pobj.export}', return (ERRORPREFIX + EVENTREPLY, f'{modulename}:{pobj.export}',
# error-report ! # error-report !
[pobj.readerror.name, str(pobj.readerror), {'t': pobj.timestamp}]) [pobj.readerror.name, str(pobj.readerror),
{'t': pobj.timestamp} if pobj.timestamp else {}])
return (EVENTREPLY, f'{modulename}:{pobj.export}', return (EVENTREPLY, f'{modulename}:{pobj.export}',
[pobj.export_value(), {'t': pobj.timestamp}]) [pobj.export_value(),
{'t': pobj.timestamp} if pobj.timestamp else {}])
class Dispatcher: class Dispatcher:

237
frappy/protocol/interface/handler.py Normal file
View File

@ -0,0 +1,237 @@
# *****************************************************************************
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Module authors:
# Enrico Faulhaber <enrico.faulhaber@frm2.tum.de>
# Markus Zolliker <markus.zolliker@psi.ch>
#
# *****************************************************************************
"""The common parts of the SECNodes outside interfaces"""
import sys
import threading
from frappy.errors import SECoPError
from frappy.lib import formatException, formatExtendedStack, \
formatExtendedTraceback
from frappy.protocol.messages import ERRORPREFIX, HELPREPLY, HELPREQUEST, \
HelpMessage
class DecodeError(Exception):
def __init__(self, message, raw_msg):
super().__init__(message)
self._raw_msg = raw_msg
@property
def raw_msg(self):
return self._raw_msg
class ConnectionClose(Exception):
"""Indicates that receive quit due to an error."""
class RequestHandler:
"""Base class for the request handlers.
This is an extended copy of the BaseRequestHandler from socketserver.
To make a new interface, implement these methods:
ingest, next_message, decode_message, receive, send_reply and format
and extend (override) setup() and finish() if needed.
For an example, have a look at TCPRequestHandler.
"""
# Methods from BaseRequestHandler
def __init__(self, request, client_address, server):
self.request = request
self.client_address = client_address
self.server = server
self.log = None
try:
self.setup()
self.handle()
except Exception:
if self.log:
self.log.error(formatException())
else:
server.log.error(formatException())
finally:
self.finish()
def setup(self):
self.log = self.server.log
self.log.info("new connection %s", self.format())
# notify dispatcher of us
self.server.dispatcher.add_connection(self)
self.send_lock = threading.Lock()
self.running = True
# overwrite this with an appropriate buffer if needed
self.data = None
def handle(self):
"""handle a new connection"""
# copy state info
serverobj = self.server
# copy relevant settings from Interface
detailed_errors = serverobj.detailed_errors
# start serving
while self.running:
try:
newdata = self.receive()
if newdata is None:
# no new data during read, continue
continue
self.ingest(newdata)
except ConnectionClose:
# either normal close or error in receive
return
# put data into (de-) framer,
# de-frame data with next_message() and decode it
# call dispatcher.handle_request(self, message)
# dispatcher will queue the reply before returning
while self.running:
try:
msg = self.next_message()
if msg is None:
break # no more messages to process
except DecodeError as err:
# we have to decode 'origin' here
# use latin-1, as utf-8 or ascii may lead to encoding errors
msg = err.raw_msg.decode('latin-1').split(' ', 3) + [
None
] # make sure len(msg) > 1
result = (
ERRORPREFIX + msg[0],
msg[1],
[
'InternalError', str(err),
{
'exception': formatException(),
'traceback': formatExtendedStack()
}
]
)
print('--------------------')
print(formatException())
print('--------------------')
print(formatExtendedTraceback(sys.exc_info()))
print('====================')
else:
try:
if msg[0] == HELPREQUEST:
self.handle_help()
result = (HELPREPLY, None, None)
else:
result = serverobj.dispatcher.handle_request(self,
msg)
except SECoPError as err:
result = (
ERRORPREFIX + msg[0],
msg[1],
[
err.name,
str(err),
{
'exception': formatException(),
'traceback': formatExtendedStack()
}
]
)
except Exception as err:
# create Error Obj instead
result = (
ERRORPREFIX + msg[0],
msg[1],
[
'InternalError',
repr(err),
{
'exception': formatException(),
'traceback': formatExtendedStack()
}
]
)
print('--------------------')
print(formatException())
print('--------------------')
print(formatExtendedTraceback(sys.exc_info()))
print('====================')
if not result:
self.log.error('empty result upon msg %s', repr(msg))
if result[0].startswith(ERRORPREFIX) and not detailed_errors:
# strip extra information
result[2][2].clear()
self.send_reply(result)
def handle_help(self):
for idx, line in enumerate(HelpMessage.splitlines()):
# not sending HELPREPLY here, as there should be only one reply for
# every request
self.send_reply(('_', f'{idx + 1}', line))
def finish(self):
"""called when handle() terminates, i.e. the socket closed"""
self.log.info('closing connection %s', self.format())
# notify dispatcher
self.server.dispatcher.remove_connection(self)
# Methods for implementing in derived classes:
def ingest(self, newdata):
"""Put the new data into the buffer."""
raise NotImplementedError
def next_message(self):
"""Get the next decoded message from the buffer.
Has to return a triple of (MESSAGE, specifier, data) or None, in case
there are no further messages in the receive queue.
If there is an Error during decoding, this method has to raise a
DecodeError.
"""
raise NotImplementedError
def receive(self):
"""Receive data from the link.
Should return the received data or None if there was nothing new. Has
to raise a ConnectionClose on shutdown of the connection or on errors
that are not recoverable.
"""
raise NotImplementedError
def send_reply(self, data):
"""send reply
stops recv loop on error
"""
raise NotImplementedError
def format(self):
"""
Format available connection data into something recognizable for
logging.
For example, the remote IP address or a connection identifier.
"""
raise NotImplementedError
# TODO: server baseclass?

169
frappy/protocol/interface/tcp.py
View File

@ -18,122 +18,77 @@
# Markus Zolliker <markus.zolliker@psi.ch> # Markus Zolliker <markus.zolliker@psi.ch>
# #
# ***************************************************************************** # *****************************************************************************
"""provides tcp interface to the SECoP Server""" """TCP interface to the SECoP Server"""
import errno import errno
import os import os
import socket import socket
import socketserver import socketserver
import sys
import threading
import time import time
from frappy.datatypes import BoolType, StringType from frappy.datatypes import BoolType, StringType
from frappy.errors import SECoPError from frappy.lib import SECoP_DEFAULT_PORT
from frappy.lib import formatException, formatExtendedStack, \
formatExtendedTraceback, SECoP_DEFAULT_PORT
from frappy.properties import Property from frappy.properties import Property
from frappy.protocol.interface import decode_msg, encode_msg_frame, get_msg from frappy.protocol.interface import decode_msg, encode_msg_frame, get_msg
from frappy.protocol.messages import ERRORPREFIX, HELPREPLY, HELPREQUEST, \ from frappy.protocol.interface.handler import ConnectionClose, \
HelpMessage RequestHandler, DecodeError
from frappy.protocol.messages import HELPREQUEST
MESSAGE_READ_SIZE = 1024 MESSAGE_READ_SIZE = 1024
HELP = HELPREQUEST.encode()
class TCPRequestHandler(socketserver.BaseRequestHandler): def format_address(addr):
if len(addr) == 2:
return '%s:%d' % addr
address, port = addr[0:2]
if address.startswith('::ffff'):
return '%s:%d' % (address[7:], port)
return '[%s]:%d' % (address, port)
class TCPRequestHandler(RequestHandler):
def setup(self): def setup(self):
self.log = self.server.log super().setup()
self.running = True self.request.settimeout(1)
self.send_lock = threading.Lock() self.data = b''
def handle(self): def finish(self):
"""handle a new tcp-connection""" """called when handle() terminates, i.e. the socket closed"""
# copy state info super().finish()
mysocket = self.request # close socket
clientaddr = self.client_address
serverobj = self.server
self.log.info("handling new connection from %s", format_address(clientaddr))
data = b''
# notify dispatcher of us
serverobj.dispatcher.add_connection(self)
# copy relevant settings from Interface
detailed_errors = serverobj.detailed_errors
mysocket.settimeout(1)
# start serving
while self.running:
try: try:
newdata = mysocket.recv(MESSAGE_READ_SIZE) self.request.shutdown(socket.SHUT_RDWR)
if not newdata: except Exception:
# no timeout error, but no new data -> connection closed pass
return finally:
data = data + newdata self.request.close()
def ingest(self, newdata):
self.data += newdata
def next_message(self):
try:
message, self.data = get_msg(self.data)
if message is None:
return None
if message.strip() == b'':
return (HELPREQUEST, None, None)
return decode_msg(message)
except Exception as e:
raise DecodeError('exception in receive', raw_msg=message) from e
def receive(self):
try:
data = self.request.recv(MESSAGE_READ_SIZE)
if not data:
raise ConnectionClose('socket was closed')
return data
except socket.timeout: except socket.timeout:
continue return None
except socket.error as e: except socket.error as e:
self.log.exception(e) self.log.exception(e)
return raise ConnectionClose() from e
if not data:
continue
# put data into (de-) framer,
# put frames into (de-) coder and if a message appear,
# call dispatcher.handle_request(self, message)
# dispatcher will queue the reply before returning
while self.running:
origin, data = get_msg(data)
if origin is None:
break # no more messages to process
origin = origin.strip()
if origin in (HELP, b''): # empty string -> send help message
for idx, line in enumerate(HelpMessage.splitlines()):
# not sending HELPREPLY here, as there should be only one reply for every request
self.send_reply(('_', f'{idx + 1}', line))
# ident matches request
self.send_reply((HELPREPLY, None, None))
continue
try:
msg = decode_msg(origin)
except Exception as err:
# we have to decode 'origin' here
# use latin-1, as utf-8 or ascii may lead to encoding errors
msg = origin.decode('latin-1').split(' ', 3) + [None] # make sure len(msg) > 1
result = (ERRORPREFIX + msg[0], msg[1], ['InternalError', str(err),
{'exception': formatException(),
'traceback': formatExtendedStack()}])
print('--------------------')
print(formatException())
print('--------------------')
print(formatExtendedTraceback(sys.exc_info()))
print('====================')
else:
try:
result = serverobj.dispatcher.handle_request(self, msg)
except SECoPError as err:
result = (ERRORPREFIX + msg[0], msg[1], [err.name, str(err),
{'exception': formatException(),
'traceback': formatExtendedStack()}])
except Exception as err:
# create Error Obj instead
result = (ERRORPREFIX + msg[0], msg[1], ['InternalError', repr(err),
{'exception': formatException(),
'traceback': formatExtendedStack()}])
print('--------------------')
print(formatException())
print('--------------------')
print(formatExtendedTraceback(sys.exc_info()))
print('====================')
if not result:
self.log.error('empty result upon msg %s', repr(msg))
if result[0].startswith(ERRORPREFIX) and not detailed_errors:
# strip extra information
result[2][2].clear()
self.send_reply(result)
def send_reply(self, data): def send_reply(self, data):
"""send reply """send reply
@ -156,18 +111,9 @@ class TCPRequestHandler(socketserver.BaseRequestHandler):
self.log.error('ERROR in send_reply %r', e) self.log.error('ERROR in send_reply %r', e)
self.running = False self.running = False
def finish(self): def format(self):
"""called when handle() terminates, i.e. the socket closed""" return f'from {format_address(self.client_address)}'
self.log.info('closing connection from %s', format_address(self.client_address))
# notify dispatcher
self.server.dispatcher.remove_connection(self)
# close socket
try:
self.request.shutdown(socket.SHUT_RDWR)
except Exception:
pass
finally:
self.request.close()
class DualStackTCPServer(socketserver.ThreadingTCPServer): class DualStackTCPServer(socketserver.ThreadingTCPServer):
"""Subclassed to provide IPv6 capabilities as socketserver only uses IPv4""" """Subclassed to provide IPv6 capabilities as socketserver only uses IPv4"""
@ -230,12 +176,3 @@ class TCPServer(DualStackTCPServer):
if ntry: if ntry:
self.log.warning('tried again %d times after "Address already in use"', ntry) self.log.warning('tried again %d times after "Address already in use"', ntry)
self.log.info("TCPServer initiated") self.log.info("TCPServer initiated")
def format_address(addr):
if len(addr) == 2:
return '%s:%d' % addr
address, port = addr[0:2]
if address.startswith('::ffff'):
return '%s:%d' % (address[7:], port)
return '[%s]:%d' % (address, port)

160
frappy/protocol/interface/ws.py Normal file
View File

@ -0,0 +1,160 @@
# *****************************************************************************
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Module authors:
# Alexander Zaft <a.zaft@fz-juelich.de>
#
# *****************************************************************************
import json
from functools import partial
from websockets.exceptions import ConnectionClosedOK, ConnectionClosedError
from websockets.sync.server import CloseCode, serve
from frappy.protocol.interface.handler import ConnectionClose, \
RequestHandler, DecodeError
from frappy.protocol.messages import HELPREQUEST
def encode_msg_frame_str(action, specifier=None, data=None):
""" encode a msg_triple into an msg_frame, ready to be sent
action (and optional specifier) are str strings,
data may be an json-yfied python object"""
msg = (action, specifier or '', '' if data is None else json.dumps(data))
return ' '.join(msg).strip()
class WSRequestHandler(RequestHandler):
"""Handles a Websocket connection."""
def __init__(self, conn, server):
self.conn = conn
client_address = conn.remote_address
request = conn.socket
super().__init__(request, client_address, server)
def setup(self):
super().setup()
self.server.connections.add(self)
def finish(self):
"""called when handle() terminates, i.e. the socket closed"""
super().finish()
self.server.connections.discard(self)
# this will be called for a second time if the server is shutting down,
# but in that case it will be a no-op
self.conn.close()
def ingest(self, newdata):
# recv on the websocket connection returns one message, we don't save
# anything in data
self.data = newdata
def next_message(self):
"""split the string into a message triple."""
if self.data is None:
return None
try:
message = self.data.strip()
if message == '':
return HELPREQUEST, None, None
res = message.split(' ', 2) + ['', '']
action, specifier, data = res[0:3]
self.data = None
return (
action,
specifier or None,
None if data == '' else json.loads(data)
)
except Exception as e:
raise DecodeError('exception when reading in message',
raw_msg=bytes(message, 'utf-8')) from e
def receive(self):
"""receives one message from the websocket."""
try:
return self.conn.recv()
except TimeoutError:
return None
except ConnectionClosedOK:
raise ConnectionClose from None
except ConnectionClosedError as e:
self.log.error('No close frame received from %s', self.format())
raise ConnectionClose from e
except OSError as e:
self.log.exception(e)
raise ConnectionClose from e
def send_reply(self, data):
"""send reply
stops recv loop on error (including timeout when output buffer full for
more than 1 sec)
"""
if not data:
self.log.error('should not reply empty data!')
return
outdata = encode_msg_frame_str(*data)
with self.send_lock:
if self.running:
try:
self.conn.send(outdata)
except (BrokenPipeError, IOError) as e:
self.log.debug('send_reply got an %r, connection closed?',
e)
self.running = False
except Exception as e:
self.log.error('ERROR in send_reply %r', e)
self.running = False
def format(self):
return f'{self.conn.id} from {self.client_address}'
class WSServer:
"""Server for providing a websocket interface.
Implementation note:
The websockets library doesn't provide an option to subclass its server, so
we take the returned value as an attribute and provide the neccessary
function calls.
"""
def __init__(self, name, logger, options, srv):
self.connections = set() # keep track for shutting down
self.dispatcher = srv.dispatcher
self.name = name
self.log = logger
self.port = int(options.pop('uri').split('://', 1)[-1])
self.detailed_errors = options.pop('detailed_errors', False)
handle = partial(WSRequestHandler, server=self)
# websockets only gives the serve method without an option to subclass
self.ws_server = serve(handle, '', self.port, logger=logger)
self.log.info("Websocket server %s binding to port %d", name, self.port)
def serve_forever(self):
self.ws_server.serve_forever()
def shutdown(self):
for c in list(self.connections):
c.conn.close(code=CloseCode.GOING_AWAY, reason='shutting down')
self.ws_server.shutdown()
def __enter__(self):
return self
def __exit__(self, *args):
return self.shutdown()

16
frappy/proxy.py
View File

@ -71,7 +71,7 @@ class ProxyModule(HasIO, Module):
pname, pobj = params.popitem() pname, pobj = params.popitem()
props = remoteparams.get(pname, None) props = remoteparams.get(pname, None)
if props is None: if props is None:
if pobj.export: if pobj.export and pname != 'status':
self.log.warning('remote parameter %s:%s does not exist', self.module, pname) self.log.warning('remote parameter %s:%s does not exist', self.module, pname)
continue continue
dt = props['datatype'] dt = props['datatype']
@ -108,17 +108,19 @@ class ProxyModule(HasIO, Module):
# for now, the error message must be enough # for now, the error message must be enough
def nodeStateChange(self, online, state): def nodeStateChange(self, online, state):
disconnected = Readable.Status.ERROR, 'disconnected'
if online: if online:
if not self._consistency_check_done: if not self._consistency_check_done:
self._check_descriptive_data() self._check_descriptive_data()
self._consistency_check_done = True self._consistency_check_done = True
if self.status == disconnected:
self.status = Readable.Status.IDLE, 'connected'
else: else:
newstatus = Readable.Status.ERROR, 'disconnected'
readerror = CommunicationFailedError('disconnected') readerror = CommunicationFailedError('disconnected')
if self.status != newstatus: if self.status != disconnected:
for pname in set(self.parameters) - set(('module', 'status')): for pname in set(self.parameters) - set(('module', 'status')):
self.announceUpdate(pname, None, readerror) self.announceUpdate(pname, None, readerror)
self.announceUpdate('status', newstatus) self.status = disconnected
def checkProperties(self): def checkProperties(self):
pass # skip pass # skip
@ -193,7 +195,7 @@ def proxy_class(remote_class, name=None):
attrs[aname] = pobj attrs[aname] = pobj
def rfunc(self, pname=aname): def rfunc(self, pname=aname):
value, _, readerror = self._secnode.getParameter(self.name, pname, True) value, _, readerror = self._secnode.getParameter(self.module, pname, True)
if readerror: if readerror:
raise readerror raise readerror
return value return value
@ -203,7 +205,7 @@ def proxy_class(remote_class, name=None):
if not pobj.readonly: if not pobj.readonly:
def wfunc(self, value, pname=aname): def wfunc(self, value, pname=aname):
value, _, readerror = self._secnode.setParameter(self.name, pname, value) value, _, readerror = self._secnode.setParameter(self.module, pname, value)
if readerror: if readerror:
raise readerror raise readerror
return value return value
@ -214,7 +216,7 @@ def proxy_class(remote_class, name=None):
cobj = aobj.copy() cobj = aobj.copy()
def cfunc(self, arg=None, cname=aname): def cfunc(self, arg=None, cname=aname):
return self._secnode.execCommand(self.name, cname, arg)[0] return self._secnode.execCommand(self.module, cname, arg)[0]
attrs[aname] = cobj(cfunc) attrs[aname] = cobj(cfunc)

1
frappy/server.py
View File

@ -53,6 +53,7 @@ except ImportError:
class Server: class Server:
INTERFACES = { INTERFACES = {
'tcp': 'protocol.interface.tcp.TCPServer', 'tcp': 'protocol.interface.tcp.TCPServer',
'ws': 'protocol.interface.ws.WSServer',
} }
_restart = True _restart = True

1
frappy/states.py
View File

@ -239,6 +239,7 @@ class HasStates:
@Command @Command
def stop(self): def stop(self):
"""stop state machine"""
self.stop_machine() self.stop_machine()
def final_status(self, code=IDLE, text=''): def final_status(self, code=IDLE, text=''):

164
frappy/structparam.py
View File

@ -1,164 +0,0 @@
# *****************************************************************************
#
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Module authors:
# Markus Zolliker <markus.zolliker@psi.ch>
#
# *****************************************************************************
"""convenience class to create a struct Parameter together with indivdual params
Usage:
class Controller(Drivable):
...
ctrlpars = StructParam('ctrlpars struct', [
('pid_p', 'p', Parameter('control parameter p', FloatRange())),
('pid_i', 'i', Parameter('control parameter i', FloatRange())),
('pid_d', 'd', Parameter('control parameter d', FloatRange())),
], readonly=False)
...
then implement either read_ctrlpars and write_ctrlpars or
read_pid_p, read_pid_i, read_pid_d, write_pid_p, write_pid_i and write_pid_d
the methods not implemented will be created automatically
"""
from frappy.core import Parameter, Property
from frappy.datatypes import BoolType, DataType, StructOf, ValueType
from frappy.errors import ProgrammingError
class StructParam(Parameter):
"""create a struct parameter together with individual parameters
in addition to normal Parameter arguments:
:param paramdict: dict <member name> of Parameter(...)
:param prefix_or_map: either a prefix for the parameter name to add to the member name
or a dict <member name> or <paramerter name>
"""
# use properties, as simple attributes are not considered on copy()
paramdict = Property('dict <parametername> of Parameter(...)', ValueType())
hasStructRW = Property('has a read_<struct param> or write_<struct param> method',
BoolType(), default=False)
insideRW = 0 # counter for avoiding multiple superfluous updates
def __init__(self, description=None, paramdict=None, prefix_or_map='', *, datatype=None, readonly=False, **kwds):
if isinstance(paramdict, DataType):
raise ProgrammingError('second argument must be a dict of Param')
if datatype is None and paramdict is not None: # omit the following on Parameter.copy()
if isinstance(prefix_or_map, str):
prefix_or_map = {m: prefix_or_map + m for m in paramdict}
for membername, param in paramdict.items():
param.name = prefix_or_map[membername]
datatype = StructOf(**{m: p.datatype for m, p in paramdict.items()})
kwds['influences'] = [p.name for p in paramdict.values()]
self.updateEnable = {}
super().__init__(description, datatype, paramdict=paramdict, readonly=readonly, **kwds)
def __set_name__(self, owner, name):
# names of access methods of structed param (e.g. ctrlpars)
struct_read_name = f'read_{name}' # e.g. 'read_ctrlpars'
struct_write_name = f'write_{name}' # e.h. 'write_ctrlpars'
self.hasStructRW = hasattr(owner, struct_read_name) or hasattr(owner, struct_write_name)
for membername, param in self.paramdict.items():
pname = param.name
changes = {
'readonly': self.readonly,
'influences': set(param.influences) | {name},
}
param.ownProperties.update(changes)
param.init(changes)
setattr(owner, pname, param)
param.__set_name__(owner, param.name)
if self.hasStructRW:
rname = f'read_{pname}'
if not hasattr(owner, rname):
def rfunc(self, membername=membername, struct_read_name=struct_read_name):
return getattr(self, struct_read_name)()[membername]
rfunc.poll = False # read_<struct param> is polled only
setattr(owner, rname, rfunc)
if not self.readonly:
wname = f'write_{pname}'
if not hasattr(owner, wname):
def wfunc(self, value, membername=membername,
name=name, rname=rname, struct_write_name=struct_write_name):
valuedict = dict(getattr(self, name))
valuedict[membername] = value
getattr(self, struct_write_name)(valuedict)
return getattr(self, rname)()
setattr(owner, wname, wfunc)
if not self.hasStructRW:
if not hasattr(owner, struct_read_name):
def struct_read_func(self, name=name, flist=tuple(
(m, f'read_{p.name}') for m, p in self.paramdict.items())):
pobj = self.parameters[name]
# disable updates generated from the callbacks of individual params
pobj.insideRW += 1 # guarded by self.accessLock
try:
return {m: getattr(self, f)() for m, f in flist}
finally:
pobj.insideRW -= 1
setattr(owner, struct_read_name, struct_read_func)
if not (self.readonly or hasattr(owner, struct_write_name)):
def struct_write_func(self, value, name=name, funclist=tuple(
(m, f'write_{p.name}') for m, p in self.paramdict.items())):
pobj = self.parameters[name]
pobj.insideRW += 1 # guarded by self.accessLock
try:
return {m: getattr(self, f)(value[m]) for m, f in funclist}
finally:
pobj.insideRW -= 1
setattr(owner, struct_write_name, struct_write_func)
super().__set_name__(owner, name)
def finish(self, modobj=None):
"""register callbacks for consistency"""
super().finish(modobj)
if modobj:
if self.hasStructRW:
def cb(value, modobj=modobj, structparam=self):
for membername, param in structparam.paramdict.items():
setattr(modobj, param.name, value[membername])
modobj.valueCallbacks[self.name].append(cb)
else:
for membername, param in self.paramdict.items():
def cb(value, modobj=modobj, structparam=self, membername=membername):
if not structparam.insideRW:
prev = dict(getattr(modobj, structparam.name))
prev[membername] = value
setattr(modobj, structparam.name, prev)
modobj.valueCallbacks[param.name].append(cb)

2
frappy_demo/modules.py
View File

@ -120,6 +120,7 @@ class MagneticField(Drivable):
) )
heatswitch = Attached(Switch, description='name of heat switch device') heatswitch = Attached(Switch, description='name of heat switch device')
# pylint: disable=invalid-name
Status = Enum(Drivable.Status, PERSIST=PERSIST, PREPARE=301, RAMPING=302, FINISH=303) Status = Enum(Drivable.Status, PERSIST=PERSIST, PREPARE=301, RAMPING=302, FINISH=303)
status = Parameter(datatype=TupleOf(EnumType(Status), StringType())) status = Parameter(datatype=TupleOf(EnumType(Status), StringType()))
@ -193,6 +194,7 @@ class MagneticField(Drivable):
self.log.error(self, 'main thread exited unexpectedly!') self.log.error(self, 'main thread exited unexpectedly!')
def stop(self): def stop(self):
"""stop at current value"""
self.write_target(self.read_value()) self.write_target(self.read_value())

80
frappy_mlz/entangle.py
View File

@ -30,6 +30,7 @@ MLZ TANGO interface for the respective device classes.
# pylint: disable=too-many-lines, consider-using-f-string # pylint: disable=too-many-lines, consider-using-f-string
import re import re
import sys
import threading import threading
from time import sleep, time as currenttime from time import sleep, time as currenttime
@ -38,7 +39,7 @@ import PyTango
from frappy.datatypes import ArrayOf, EnumType, FloatRange, IntRange, \ from frappy.datatypes import ArrayOf, EnumType, FloatRange, IntRange, \
LimitsType, StatusType, StringType, TupleOf, ValueType LimitsType, StatusType, StringType, TupleOf, ValueType
from frappy.errors import CommunicationFailedError, ConfigError, \ from frappy.errors import CommunicationFailedError, ConfigError, \
HardwareError, ProgrammingError, WrongTypeError HardwareError, ProgrammingError, WrongTypeError, RangeError
from frappy.lib import lazy_property from frappy.lib import lazy_property
from frappy.modules import Command, Drivable, Module, Parameter, Property, \ from frappy.modules import Command, Drivable, Module, Parameter, Property, \
Readable, Writable Readable, Writable
@ -440,6 +441,7 @@ class AnalogOutput(PyTangoDevice, Drivable):
) )
abslimits = Parameter('Absolute limits of device value', abslimits = Parameter('Absolute limits of device value',
datatype=LimitsType(FloatRange(unit='$')), datatype=LimitsType(FloatRange(unit='$')),
export=False,
) )
precision = Parameter('Precision of the device value (allowed deviation ' precision = Parameter('Precision of the device value (allowed deviation '
'of stable values from target)', 'of stable values from target)',
@ -466,30 +468,52 @@ class AnalogOutput(PyTangoDevice, Drivable):
# replacement of '$' by main unit must be done later # replacement of '$' by main unit must be done later
self.__main_unit = mainunit self.__main_unit = mainunit
def _init_abslimits(self): def _init_limits(self):
"""Get abslimits from tango if not configured. Otherwise, check if both """Get abslimits from tango if not configured. Otherwise, check if both
ranges are compatible.""" ranges are compatible."""
def intersect_limits(first, second, first_kind, second_kind):
lower = max(first[0], second[0])
upper = min(first[1], second[1])
if lower >= upper:
raise WrongTypeError(f"{first_kind} limits '{first}' are not "
f"compatible with {second_kind} limits "
f"'{second}'!")
return lower, upper
tangoabslim = (-sys.float_info.max, sys.float_info.max)
try: try:
tangoabslim = ( read_tangoabslim = (float(self._getProperty('absmin')),
float(self._getProperty('absmin')), float(self._getProperty('absmax')))
float(self._getProperty('absmax')) # Entangle convention for "unrestricted"
) if read_tangoabslim != (0, 0):
tangoabslim = read_tangoabslim
except Exception as e:
self.log.error('could not read Tango abslimits: %s' % e)
if self.parameters['abslimits'].readerror: if self.parameters['abslimits'].readerror:
# no abslimits configured in frappy. read from entangle # no abslimits configured in frappy
self.parameters['abslimits'].readerror = None self.parameters['abslimits'].readerror = None
self.abslimits = tangoabslim self.abslimits = tangoabslim
except Exception as e:
self.log.error(e)
# check if compatible
try:
dt = FloatRange(*tangoabslim)
dt.validate(self.parameters['abslimits'].datatype.min)
dt.validate(self.parameters['abslimits'].datatype.max)
except WrongTypeError as e:
raise WrongTypeError(f'Absolute limits configured in frappy \''
f'{self.abslimits}\' extend beyond the limits '
f'defined in entangle \'{tangoabslim}\'!') from e
# check both abslimits against each other
self.abslimits = intersect_limits(self.abslimits, tangoabslim,
'frappy absolute',
'entangle absolute')
# set abslimits as hard target limits
self.parameters['target'].datatype.set_properties(
min=self.abslimits[0], max=self.abslimits[1])
# restrict current user limits by abslimits
self.userlimits = intersect_limits(self.userlimits, self.abslimits,
'user', 'absolute')
# restrict settable user limits by abslimits
self.parameters['userlimits'].datatype.members[0].set_properties(
min=self.abslimits[0], max=self.abslimits[1])
self.parameters['userlimits'].datatype.members[1].set_properties(
min=self.abslimits[0], max=self.abslimits[1])
def initModule(self): def initModule(self):
super().initModule() super().initModule()
@ -509,9 +533,8 @@ class AnalogOutput(PyTangoDevice, Drivable):
self.__main_unit = attrInfo.unit self.__main_unit = attrInfo.unit
except Exception as e: except Exception as e:
self.log.error(e) self.log.error(e)
if self.__main_unit:
super().applyMainUnit(self.__main_unit) super().applyMainUnit(self.__main_unit)
self._init_abslimits() self._init_limits()
def doPoll(self): def doPoll(self):
super().doPoll() super().doPoll()
@ -597,22 +620,20 @@ class AnalogOutput(PyTangoDevice, Drivable):
del __getusermin, __setusermin, __getusermax, __setusermax del __getusermin, __setusermin, __getusermax, __setusermax
def _checkLimits(self, limits): def write_userlimits(self, value):
umin, umax = limits umin, umax = value
amin, amax = self.abslimits amin, amax = self.abslimits
if umin > umax:
raise ValueError(
self, f'user minimum ({umin}) above the user maximum ({umax})')
if umin < amin - abs(amin * 1e-12): if umin < amin - abs(amin * 1e-12):
umin = amin umin = amin
if umax > amax + abs(amax * 1e-12): if umax > amax + abs(amax * 1e-12):
umax = amax umax = amax
return (umin, umax) return umin, umax
def write_userlimits(self, value):
return self._checkLimits(value)
def write_target(self, value=FloatRange()): def write_target(self, value=FloatRange()):
umin, umax = self.userlimits
if not umin <= value <= umax:
raise RangeError(
f'target value {value} must be between {umin} and {umax}')
if self.status[0] == self.Status.BUSY: if self.status[0] == self.Status.BUSY:
# changing target value during movement is not allowed by the # changing target value during movement is not allowed by the
# Tango base class state machine. If we are moving, stop first. # Tango base class state machine. If we are moving, stop first.
@ -641,6 +662,7 @@ class AnalogOutput(PyTangoDevice, Drivable):
sleep(0.3) sleep(0.3)
def stop(self): def stop(self):
"""cease driving, go to IDLE state"""
self._dev.Stop() self._dev.Stop()

152
frappy_psi/ACM1219.py Normal file
View File

@ -0,0 +1,152 @@
# *****************************************************************************
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Module authors:
# Paul M. Neves <pmneves@mit.edu>
# *****************************************************************************
import time
from frappy.core import Readable, Parameter, FloatRange, HasIO, StringIO, Property, IntRange,\
IDLE, BUSY, WARN, ERROR, Drivable, BoolType, Attached, StructOf
class ACM1219IO(StringIO):
"""communication with ACM1219"""
end_of_line = ('\r\n', '\r') # ('\n', '\r') ('\r\n', '\r')
encoding = 'latin-1' # initial reply might not be ascii for a strange reason
identification = [('*IDN?', r'.*,ACM1219,.*')]
def checkHWIdent(self):
for _ in range(3):
time.sleep(0.5)
try:
self.communicate('*IDN?')
break
except Exception:
pass
super().checkHWIdent()
class Channel(Readable):
value = Parameter('one channel', unit='pF')
class OneChannel(HasIO, Readable):
"""read both capacitance channels in multiplex mode"""
# define the communication class for automatic creation of the IO module
ioClass = ACM1219IO
# modifying a property of inherited parameters (unit is propagated to the FloatRange datatype)
value = Parameter('Capacitance of one channel',
FloatRange(0, 21.096, unit='pF'), readonly=True)
channel_enabled = Parameter('channel on or off', BoolType(), readonly=False)
channel = Property('the voltage channel', datatype=IntRange(1,2))
_ch_enabled = False
def read_value(self):
reply = self.communicate('readCVT').split(',')
value = float(reply[self.channel-1])
return value
def read_status(self):
# code = self.communicate(f'readStatus') # returns tons of data
return IDLE, ''
def read_channel_enabled(self):
return self._ch_enabled
def write_channel_enabled(self, channel_enabled):
if channel_enabled:
self.communicate(f'setCIN {self.channel},0,00.0,00.0,0,00.0,00.0')
# self.communicate(f'setCIN 2,0,00.0,00.0,0,00.0,00.0')
self._ch_enabled = True
else:
self.communicate(f'setCIN 0,0,00.0,00.0,0,00.0,00.0')
self._ch_enabled = False
return self.read_channel_enabled()
class BothChannels(HasIO, Readable):
"""read both capacitance channels in multiplex mode"""
# define the communication class for automatic creation of the IO module
ioClass = ACM1219IO
chan1 = Attached(Readable)
chan2 = Attached(Readable)
# modifying a property of inherited parameters (unit is propagated to the FloatRange datatype)
value = Parameter('Capacitance 1 and 2, and VT',
StructOf(C1=FloatRange(0, 21.096, unit='pF'), C2=FloatRange(0, 21.096, unit='pF'), VT=FloatRange(-1, 1000, unit='')),
readonly=True)
channels_enabled = Parameter('channels on or off', BoolType(), readonly=False)
_ch_enabled = False
_channel = 1
def Xread_value(self):
# using the inherited HasIO.communicate method to send a command and get the reply
natempt = 0
maxAttempts = 5
while natempt < maxAttempts:
try:
reply = self.communicate(f'readMUC')
# print(reply)
reply = reply.split(',')
C1 = float(reply[0])
C2 = float(reply[1])
VT = float(reply[2])
self.chan1.value = C1
self.chan2.value = C2
return {'C1': C1, 'C2': C2, 'VT': VT}
except:
''
natempt+=1
if natempt >= maxAttempts:
print('Max attempt reached for reading arduino.')
return self.value
def read_value(self):
reply = self.communicate('readCVT').split(',')
value = float(reply[self._channel-1])
previous = dict(self.value)
previous[f'C{self._channel}'] = value
getattr(self, f'chan{self._channel}').value = value
self._channel = 3 - self._channel
self.communicate(f'setCIN {self._channel},0,00.0,00.0,0,00.0,00.0')
return previous
def read_status(self):
# code = self.communicate(f'readStatus') # returns tons of data
return IDLE, ''
def read_channels_enabled(self):
return self._ch_enabled
def write_channels_enabled(self, channels_enabled):
if channels_enabled:
self.communicate(f'setCIN {self._channel},0,00.0,00.0,0,00.0,00.0')
# self.communicate(f'setCIN 2,0,00.0,00.0,0,00.0,00.0')
self._ch_enabled = True
self.communicate(f'setEXC 2,2,3,1')
else:
self.communicate(f'setCIN 0,0,00.0,00.0,0,00.0,00.0')
self._ch_enabled = False
self.communicate(f'setEXC 0,0,3,1')
return self.read_channels_enabled()

130
frappy_psi/RP100.py Normal file
View File

@ -0,0 +1,130 @@
# *****************************************************************************
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Module authors:
# Paul M. Neves <pmneves@mit.edu>
# *****************************************************************************
from frappy.core import Readable, Parameter, FloatRange, HasIO, StringIO, Property, IntRange,\
IDLE, BUSY, WARN, ERROR, Drivable, BoolType, Attached
from ast import literal_eval
class RP100IO(StringIO):
"""communication with RP100"""
end_of_line = '\n'
#wait_before = 0.05
identification = [('*IDN?', r'Razorbill,.*')]
class VoltageChannel(HasIO, Drivable):
"""a voltage output with loop"""
temp = Attached()
# define the communication class for automatic creation of the IO module
ioClass = RP100IO
# internal property to configure the channel
channel = Property('the voltage channel', datatype=IntRange(1,2))
# modifying a property of inherited parameters (unit is propagated to the FloatRange datatype)
value = Parameter('output voltage', FloatRange(-210, 210, unit='V'),
readonly=True)
target = Parameter('target voltage', FloatRange(-210, 210, unit='V'),
readonly=False)
meas_voltage = Parameter('measured output voltage', FloatRange(-250, 250, unit='V'),
readonly=True)
meas_current = Parameter('measured output current', FloatRange(-0.007, 0.007, unit='A'),
readonly=True)
max_target = Parameter('max. target', FloatRange(0, 210, unit='V'), readonly=False)
min_target = Parameter('max. target', FloatRange(-210, 0, unit='V'), readonly=False)
slew_rate = Parameter('voltage slew rate', FloatRange(0.1e-3, 100e3, unit='V/s'), readonly=False)
output_state = Parameter('output on or off', BoolType(), readonly=False)
def doPoll(self):
super().doPoll()
# calculate temperature dependent voltage limits
temp = self.temp.target
if temp > 250:
self.max_target = 120
self.min_target = -20
elif temp >= 100:
self.max_target = 120
self.min_target = -50 + (temp-100)/5
elif temp >= 10:
self.max_target = 200 - 8*(temp-10)/9
self.min_target = -200 + 5*(temp-10)/3
elif temp < 10:
self.max_target = 200
self.min_target = -200
# if the current voltage exceeds these limits, reduce voltage to max/min
if self.target > self.max_target:
self.write_target(self.max_target)
if self.target < self.min_target:
self.write_target(self.min_target)
def read_value(self):
# using the inherited HasIO.communicate method to send a command and get the reply
reply = self.communicate(f'SOUR{self.channel}:VOLT:NOW?')
return float(reply)
def read_status(self):
while 1:
code, text = literal_eval(self.communicate(f'SYST:ERR?'))
if code == 0:
break
self.log.warning('got error %d %s', code, text)
return IDLE, ''
def read_target(self):
# read back the target value
target = float(self.communicate(f'SOUR{self.channel}:VOLT?'))
return target
def write_target(self, target):
# write here the target to the hardware
if target > self.max_target:
target = self.max_target
self.log.warning('Attempted to set voltage above maximum allowed voltage. Setting to max allowed instead.')
if target < self.min_target:
target = self.min_target
self.log.warning('Attempted to set voltage below minimum allowed voltage. Setting to min allowed instead.')
self.communicate(f'SOUR{self.channel}:VOLT {target};*OPC?')
return self.read_target() # return the read back value
def read_slew_rate(self):
return float(self.communicate(f'SOUR{self.channel}:VOLT:SLEW?'))
def write_slew_rate(self, slew_rate):
self.communicate(f'SOUR{self.channel}:VOLT:SLEW {slew_rate};*OPC?')
return self.read_slew_rate()
def read_output_state(self):
return int(self.communicate(f'OUTP{self.channel}?'))
def write_output_state(self, output_state):
self.communicate(f'OUTP{self.channel} {int(output_state)};*OPC?')
if not output_state:
self.write_target(0)
return self.read_output_state()
def read_meas_voltage(self):
return float(self.communicate(f'MEAS{self.channel}:VOLT?'))
def read_meas_current(self):
return float(self.communicate(f'MEAS{self.channel}:CURR?'))

834
frappy_psi/attocube.py
View File

@ -17,248 +17,690 @@
# Markus Zolliker <markus.zolliker@psi.ch> # Markus Zolliker <markus.zolliker@psi.ch>
# ***************************************************************************** # *****************************************************************************
import sys
import time import time
from frappy.core import Drivable, Parameter, Command, Property, ERROR, WARN, BUSY, IDLE, Done, nopoll import threading
from frappy.features import HasTargetLimits, HasSimpleOffset from frappy.core import Drivable, Parameter, Command, Property, Module, HasIO, \
ERROR, WARN, BUSY, IDLE, nopoll, Limit
from frappy.datatypes import IntRange, FloatRange, StringType, BoolType from frappy.datatypes import IntRange, FloatRange, StringType, BoolType
from frappy.errors import ConfigError, BadValueError from frappy.errors import BadValueError, HardwareError, ConfigError
sys.path.append('/home/l_samenv/Documents/anc350/Linux64/userlib/lib')
from PyANC350v4 import Positioner from PyANC350v4 import Positioner
DIRECTION_NAME = {1: 'forward', -1: 'backward'} class IO(Module):
"""'communication' module for attocube controller
why an extra class:
class FreezeStatus: - HasIO assures that a single common communicator is used
"""freeze status for some time - access must be thread safe
hardware quite often does not treat status correctly: on a target change it
may take some time to return the 'busy' status correctly.
in classes with this mixin, within :meth:`write_target` call
self.freeze_status(0.5, BUSY, 'changed target')
a wrapper around read_status will take care that the status will be the given value,
for at least the given delay. This does NOT cover the case when self.status is set
directly from an other method.
""" """
__freeze_status_until = 0 uri = Property('dummy uri, only one controller may exists',
StringType())
export = False
_hw = None
_lock = None
used_axes = set()
def __init_subclass__(cls): def initModule(self):
def wrapped(self, inner=cls.read_status): if self._hw is None:
if time.time() < self.__freeze_status_until: IO._lock = threading.Lock()
return Done IO._hw = Positioner()
return inner(self) super().initModule()
cls.read_status = wrapped def shutdownModule(self):
super().__init_subclass__() if IO._hw:
IO._hw.disconnect()
IO._hw = None
def freeze_status(self, delay, code=BUSY, text='changed target'): def configureAQuadBIn(self, axisNo, enable, resolution):
"""freezze status to the given value for the given delay""" """Enables and configures the A-Quad-B (quadrature) input for the target position.
self.__freeze_status_until = time.time() + delay Parameters
self.status = code, text axisNo Axis number (0 ... 2)
enable Enable (1) or disable (0) A-Quad-B input
resolution A-Quad-B step width in m. Internal resolution is 1 nm.
Returns
None
"""
with self._lock:
return self._hw.configureAQuadBIn(axisNo, enable, resolution)
def configureAQuadBOut(self, axisNo, enable, resolution, clock):
"""Enables and configures the A-Quad-B output of the current position.
Parameters
axisNo Axis number (0 ... 2)
enable Enable (1) or disable (0) A-Quad-B output
resolution A-Quad-B step width in m; internal resolution is 1 nm
clock Clock of the A-Quad-B output [s]. Allowed range is 40ns ... 1.3ms; internal resulution is 20ns.
Returns
None
"""
with self._lock:
return self._hw.configureAQuadBOut(axisNo, enable, resolution, clock)
def configureExtTrigger(self, axisNo, mode):
"""Enables the input trigger for steps.
Parameters
axisNo Axis number (0 ... 2)
mode Disable (0), Quadratur (1), Trigger(2) for external triggering
Returns
None
"""
with self._lock:
return self._hw.configureExtTrigger(axisNo, mode)
def configureNslTriggerAxis(self, axisNo):
"""Selects Axis for NSL Trigger.
Parameters
axisNo Axis number (0 ... 2)
Returns
None
"""
with self._lock:
return self._hw.configureNslTriggerAxis(axisNo)
def configureRngTrigger(self, axisNo, lower, upper):
"""Configure lower position for range Trigger.
Parameters
axisNo Axis number (0 ... 2)
lower Lower position for range trigger (nm)
upper Upper position for range trigger (nm)
Returns
None
"""
with self._lock:
return self._hw.configureRngTrigger(axisNo, lower, upper)
def configureRngTriggerEps(self, axisNo, epsilon):
"""Configure hysteresis for range Trigger.
Parameters
axisNo Axis number (0 ... 2)
epsilon hysteresis in nm / mdeg
Returns
None
"""
with self._lock:
return self._hw.configureRngTriggerEps(axisNo, epsilon)
def configureRngTriggerPol(self, axisNo, polarity):
"""Configure lower position for range Trigger.
Parameters
axisNo Axis number (0 ... 2)
polarity Polarity of trigger signal when position is between lower and upper Low(0) and High(1)
Returns
None
"""
with self._lock:
return self._hw.configureRngTriggerPol(axisNo, polarity)
def getActuatorName(self, axisNo):
"""Get the name of the currently selected actuator
Parameters
axisNo Axis number (0 ... 2)
Returns
name Name of the actuator
"""
with self._lock:
return self._hw.getActuatorName(axisNo)
def getActuatorType(self, axisNo):
"""Get the type of the currently selected actuator
Parameters
axisNo Axis number (0 ... 2)
Returns
type_ Type of the actuator {0: linear, 1: goniometer, 2: rotator}
"""
with self._lock:
return self._hw.getActuatorType(axisNo)
def getAmplitude(self, axisNo):
"""Reads back the amplitude parameter of an axis.
Parameters
axisNo Axis number (0 ... 2)
Returns
amplitude Amplitude V
"""
with self._lock:
return self._hw.getAmplitude(axisNo)
def getAxisStatus(self, axisNo):
"""Reads status information about an axis of the device.
Parameters
axisNo Axis number (0 ... 2)
Returns
connected Output: If the axis is connected to a sensor.
enabled Output: If the axis voltage output is enabled.
moving Output: If the axis is moving.
target Output: If the target is reached in automatic positioning
eotFwd Output: If end of travel detected in forward direction.
eotBwd Output: If end of travel detected in backward direction.
error Output: If the axis' sensor is in error state.
"""
with self._lock:
return self._hw.getAxisStatus(axisNo)
def getFrequency(self, axisNo):
"""Reads back the frequency parameter of an axis.
Parameters
axisNo Axis number (0 ... 2)
Returns
frequency Output: Frequency in Hz
"""
with self._lock:
return self._hw.getFrequency(axisNo)
def getPosition(self, axisNo):
"""Retrieves the current actuator position. For linear type actuators the position unit is m; for goniometers and rotators it is degree.
Parameters
axisNo Axis number (0 ... 2)
Returns
position Output: Current position [m] or [°]
"""
with self._lock:
return self._hw.getPosition(axisNo)
def measureCapacitance(self, axisNo):
"""Performs a measurement of the capacitance of the piezo motor and returns the result. If no motor is connected, the result will be 0. The function doesn't return before the measurement is complete; this will take a few seconds of time.
Parameters
axisNo Axis number (0 ... 2)
Returns
cap Output: Capacitance [F]
"""
with self._lock:
return self._hw.measureCapacitance(axisNo)
def selectActuator(self, axisNo, actuator):
"""Selects the actuator to be used for the axis from actuator presets.
Parameters
axisNo Axis number (0 ... 2)
actuator Actuator selection (0 ... 255)
0: ANPg101res
1: ANGt101res
2: ANPx51res
3: ANPx101res
4: ANPx121res
5: ANPx122res
6: ANPz51res
7: ANPz101res
8: ANR50res
9: ANR51res
10: ANR101res
11: Test
Returns
None
"""
with self._lock:
return self._hw.selectActuator(axisNo, actuator)
def setAmplitude(self, axisNo, amplitude):
"""Sets the amplitude parameter for an axis
Parameters
axisNo Axis number (0 ... 2)
amplitude Amplitude in V, internal resolution is 1 mV
Returns
None
"""
with self._lock:
return self._hw.setAmplitude(axisNo, amplitude)
def setAxisOutput(self, axisNo, enable, autoDisable):
"""Enables or disables the voltage output of an axis.
Parameters
axisNo Axis number (0 ... 2)
enable Enables (1) or disables (0) the voltage output.
autoDisable If the voltage output is to be deactivated automatically when end of travel is detected.
Returns
None
"""
with self._lock:
return self._hw.setAxisOutput(axisNo, enable, autoDisable)
def setDcVoltage(self, axisNo, voltage):
"""Sets the DC level on the voltage output when no sawtooth based motion is active.
Parameters
axisNo Axis number (0 ... 2)
voltage DC output voltage [V], internal resolution is 1 mV
Returns
None
"""
with self._lock:
return self._hw.setDcVoltage(axisNo, voltage)
def setFrequency(self, axisNo, frequency):
"""Sets the frequency parameter for an axis
Parameters
axisNo Axis number (0 ... 2)
frequency Frequency in Hz, internal resolution is 1 Hz
Returns
None
"""
with self._lock:
return self._hw.setFrequency(axisNo, frequency)
def setTargetPosition(self, axisNo, target):
"""Sets the target position for automatic motion, see ANC_startAutoMove. For linear type actuators the position unit is m, for goniometers and rotators it is degree.
Parameters
axisNo Axis number (0 ... 2)
target Target position [m] or [°]. Internal resulution is 1 nm or 1 µ°.
Returns
None
"""
with self._lock:
return self._hw.setTargetPosition(axisNo, target)
def setTargetRange(self, axisNo, targetRg):
"""Defines the range around the target position where the target is considered to be reached.
Parameters
axisNo Axis number (0 ... 2)
targetRg Target range [m] or [°]. Internal resulution is 1 nm or 1 µ°.
Returns
None
"""
with self._lock:
return self._hw.setTargetRange(axisNo, targetRg)
def startAutoMove(self, axisNo, enable, relative):
"""Switches automatic moving (i.e. following the target position) on or off
Parameters
axisNo Axis number (0 ... 2)
enable Enables (1) or disables (0) automatic motion
relative If the target position is to be interpreted absolute (0) or relative to the current position (1)
Returns
None
"""
with self._lock:
return self._hw.startAutoMove(axisNo, enable, relative)
def startContinuousMove(self, axisNo, start, backward):
"""Starts or stops continous motion in forward direction. Other kinds of motions are stopped.
Parameters
axisNo Axis number (0 ... 2)
start Starts (1) or stops (0) the motion
backward If the move direction is forward (0) or backward (1)
Returns
None
"""
with self._lock:
return self._hw.startContinuousMove(axisNo, start, backward)
def startSingleStep(self, axisNo, backward):
"""Triggers a single step in desired direction.
Parameters
axisNo Axis number (0 ... 2)
backward If the step direction is forward (0) or backward (1)
Returns
None
"""
with self._lock:
return self._hw.startSingleStep(axisNo, backward)
class Axis(HasTargetLimits, FreezeStatus, Drivable): class Stopped(RuntimeError):
"""thread was stopped"""
class Axis(HasIO, Drivable):
axis = Property('axis number', IntRange(0, 2), 0) axis = Property('axis number', IntRange(0, 2), 0)
value = Parameter('axis position', FloatRange(unit='deg')) value = Parameter('axis position', FloatRange(unit='deg'))
frequency = Parameter('frequency', FloatRange(1, unit='Hz'), readonly=False) frequency = Parameter('frequency', FloatRange(1, unit='Hz'), readonly=False)
amplitude = Parameter('amplitude', FloatRange(0, unit='V'), readonly=False) amplitude = Parameter('amplitude', FloatRange(0, unit='V'), readonly=False)
gear = Parameter('gear factor', FloatRange(), readonly=False, default=1, initwrite=True) gear = Parameter('gear factor', FloatRange(), readonly=False, value=1)
tolerance = Parameter('positioning tolerance', FloatRange(0, unit='$'), readonly=False, default=0.01) tolerance = Parameter('positioning tolerance', FloatRange(0, unit='$'),
output = Parameter('enable output', BoolType(), readonly=False) readonly=False, default=0.01)
sensor_connected = Parameter('a sensor is connected', BoolType())
info = Parameter('axis info', StringType()) info = Parameter('axis info', StringType())
statusbits = Parameter('status bits', StringType()) statusbits = Parameter('status bits', StringType())
step_mode = Parameter('step mode (soft closed loop)', BoolType(),
default=False, readonly=False, group='step_mode')
timeout = Parameter('timeout after no progress detected', FloatRange(0),
default=1, readonly=False, group='step_mode')
steps_fwd = Parameter('forward steps / main unit', FloatRange(0), unit='$/s',
default=0, readonly=False, group='step_mode')
steps_bwd = Parameter('backward steps / main unit', FloatRange(0, unit='$/s'),
default=0, readonly=False, group='step_mode')
delay = Parameter('delay between tries within loop', FloatRange(0, unit='s'),
readonly=False, default=0.05, group='step_mode')
maxstep = Parameter('max. step duration', FloatRange(0, unit='s'),
default=0.25, readonly=False, group='step_mode')
prop = Parameter('factor for control loop', FloatRange(0, 1),
readonly=False, default=0.8, group='step_mode')
uri = 'ANC'
ioClass = IO
target_min = Limit()
target_max = Limit()
_hw = Positioner() fast_interval = 0.25
_hw = None
_scale = 1 # scale for custom units _scale = 1 # scale for custom units
_move_steps = 0 # number of steps to move (used by move command)
SCALES = {'deg': 1, 'm': 1, 'mm': 1000, 'um': 1000000, 'µm': 1000000} SCALES = {'deg': 1, 'm': 1, 'mm': 1000, 'um': 1000000, 'µm': 1000000}
_direction = 1 # move direction _thread = None
_idle_status = IDLE, '' _moving_since = 0
_error_state = '' # empty string: no error _status = IDLE, ''
_history = None _calib_range = None
_check_sensor = False _try_cnt = 0
_try_count = 0 _at_target = False
def __init__(self, name, logger, opts, srv): def initModule(self):
unit = opts.pop('unit', 'deg') super().initModule()
opts['value.unit'] = unit self._stopped = threading.Event()
if self.axis in IO.used_axes:
raise ConfigError(f'a module with axisNo={self.axis} already exists')
IO.used_axes.add(self.axis)
def initialReads(self):
self.read_info()
super().initialReads()
def shutdownModule(self):
IO.used_axes.discard(self.axis)
def read_value(self):
if self._thread:
return self.value
try: try:
self._scale = self.SCALES[unit] * opts.get('gear', 1) return self._read_pos()
except KeyError as e: except Stopped:
raise ConfigError('unsupported unit: %s' % unit) return self.value
super().__init__(name, logger, opts, srv)
def write_gear(self, value): def write_gear(self, value):
self._scale = self.SCALES[self.parameters['value'].datatype.unit] * self.gear self._scale = self.SCALES[self.parameters['value'].datatype.unit] * self.gear
return value return value
def startModule(self, start_events):
super().startModule(start_events)
start_events.queue(self.read_info)
def check_value(self, value):
"""check if value allows moving in current direction"""
if self._direction > 0:
if value > self.target_limits[1]:
raise BadValueError('above upper limit')
elif value < self.target_limits[0]:
raise BadValueError('below lower limit')
def read_value(self):
pos = self._hw.getPosition(self.axis) * self._scale
if self.isBusy():
try:
self.check_value(pos)
except BadValueError as e:
self._stop()
self._idle_status = ERROR, str(e)
return pos
def read_frequency(self): def read_frequency(self):
return self._hw.getFrequency(self.axis) return self.io.getFrequency(self.axis)
def write_frequency(self, value): def write_frequency(self, value):
self._hw.setFrequency(self.axis, value) self.io.setFrequency(self.axis, value)
return self._hw.getFrequency(self.axis) return self.io.getFrequency(self.axis)
def read_amplitude(self): def read_amplitude(self):
return self._hw.getAmplitude(self.axis) return self.io.getAmplitude(self.axis)
def write_amplitude(self, value): def write_amplitude(self, value):
self._hw.setAmplitude(self.axis, value) self.io.setAmplitude(self.axis, value)
return self._hw.getAmplitude(self.axis) return self.io.getAmplitude(self.axis)
def write_tolerance(self, value): def read_statusbits(self):
self._hw.setTargetRange(self.axis, value / self._scale) self._get_status()
return value return self.statusbits
def write_output(self, value): def _get_status(self):
self._hw.setAxisOutput(self.axis, enable=value, autoDisable=0) """get axis status
return value
- update self.sensor_connected and self.statusbits
- return <moving flag>, <error flag>, <reason>
<moving flag> is True whn moving
<in_error> is True when in error
<reason> is an error text, when in error, 'at target' or '' otherwise
"""
statusbits = self.io.getAxisStatus(self.axis)
self.sensor_connected, self._output, moving, at_target, fwd_stuck, bwd_stuck, error = statusbits
self.statusbits = ''.join(k for k, v in zip('OTFBE', (self._output,) + statusbits[3:]) if v)
if error:
return ERROR, 'other error'
if bwd_stuck:
return ERROR, 'end of travel backward'
if fwd_stuck:
return ERROR, 'end of travel forward'
target_reached = at_target > self._at_target
self._at_target = at_target
if self._moving_since:
if target_reached:
return IDLE, 'at target'
if time.time() < self._moving_since + 0.25:
return BUSY, 'started'
if at_target:
return IDLE, 'at target'
if moving and self._output:
return BUSY, 'moving'
return WARN, 'stopped by unknown reason'
if self._moving_since is False:
return IDLE, 'stopped'
if not self.step_mode and at_target:
return IDLE, 'at target'
return IDLE, ''
def read_status(self): def read_status(self):
statusbits = self._hw.getAxisStatus(self.axis) status = self._get_status()
sensor, self.output, moving, attarget, eot_fwd, eot_bwd, sensor_error = statusbits if self.step_mode:
self.statusbits = ''.join((k for k, v in zip('SOMTFBE', statusbits) if v)) return self._status
if self._move_steps: if self._moving_since:
if not (eot_fwd or eot_bwd): if status[0] != BUSY:
return BUSY, 'moving by steps' self._moving_since = 0
if not sensor: self.setFastPoll(False)
self._error_state = 'no sensor connected' return status
elif sensor_error:
self._error_state = 'sensor error' def _wait(self, delay):
elif eot_fwd: if self._stopped.wait(delay):
self._error_state = 'end of travel forward' raise Stopped()
elif eot_bwd:
self._error_state = 'end of travel backward' def _read_pos(self):
if not self.sensor_connected:
return 0
poslist = []
for i in range(9):
if i:
self._wait(0.001)
poslist.append(self.io.getPosition(self.axis) * self._scale)
self._poslist = sorted(poslist)
return self._poslist[len(poslist) // 2] # median
def _run_drive(self, target):
self.value = self._read_pos()
self.status = self._status = BUSY, 'drive by steps'
deadline = time.time() + self.timeout
max_steps = self.maxstep * self.frequency
while True:
for _ in range(2):
dif = target - self.value
steps_per_unit = self.steps_bwd if dif < 0 else self.steps_fwd
tol = max(self.tolerance, 0.6 / steps_per_unit) # avoid a tolerance less than 60% of a step
if abs(dif) > tol * 3:
break
# extra wait time when already close
self._wait(2 * self.delay)
self.read_value()
status = None
if abs(dif) < tol:
status = IDLE, 'in tolerance'
elif self._poslist[2] <= target <= self._poslist[-3]: # target within noise
status = IDLE, 'within noise'
elif dif > 0:
steps = min(max_steps, min(dif, (dif + tol) * self.prop) * steps_per_unit)
else: else:
if self._error_state and not DIRECTION_NAME[self._direction] in self._error_state: steps = max(-max_steps, max(dif, (dif - tol) * self.prop) * steps_per_unit)
self._error_state = '' if status or steps == 0:
status_text = 'moving' if self._try_count == 0 else 'moving (retry %d)' % self._try_count self._status = status
if moving and self._history is not None: # history None: moving by steps break
self._history.append(self.value) if round(steps) == 0: # this should not happen
if len(self._history) < 5: self._status = WARN, 'steps=0'
return BUSY, status_text break
beg = self._history.pop(0) self._move_steps(steps)
if abs(beg - self.target) < self.tolerance: if self._step_size > self.prop * 0.25 / steps_per_unit:
# reset normal tolerance # some progress happened
self._stop() deadline = time.time() + self.timeout
self._idle_status = IDLE, 'in tolerance' elif time.time() > deadline:
return self._idle_status self._status = WARN, 'timeout - no progress'
# self._hw.setTargetRange(self.axis, self.tolerance / self._scale) break
if (self.value - beg) * self._direction > 0: self.read_status()
return BUSY, status_text
self._try_count += 1
if self._try_count < 10:
self.log.warn('no progress retry %d', self._try_count)
return BUSY, status_text
self._idle_status = WARN, 'no progress'
if self._error_state:
self._try_count += 1
if self._try_count < 10 and self._history is not None:
self.log.warn('end of travel retry %d', self._try_count)
self.write_target(self.target)
return Done
self._idle_status = WARN, self._error_state
if self.status[0] != IDLE:
self._stop()
return self._idle_status
def write_target(self, value): def _thread_wrapper(self, func, *args):
if value == self.read_value():
return value
self.check_limits(value)
self._try_count = 0
self._direction = 1 if value > self.value else -1
# if self._error_state and DIRECTION_NAME[-self._direction] not in self._error_state:
# raise BadValueError('can not move (%s)' % self._error_state)
self._move_steps = 0
self.write_output(1)
# try first with 50 % of tolerance
self._hw.setTargetRange(self.axis, self.tolerance * 0.5 / self._scale)
for itry in range(5):
try: try:
self._hw.setTargetPosition(self.axis, value / self._scale) func(*args)
self._hw.startAutoMove(self.axis, enable=1, relative=0) except Stopped as e:
self._status = IDLE, str(e)
except Exception as e: except Exception as e:
if itry == 4: self._status = ERROR, f'{type(e).__name__} - {e}'
raise finally:
self.log.warn('%r', e) self.io.setAxisOutput(self.axis, enable=0, autoDisable=0)
self._history = [self.value] self.setFastPoll(False)
self._idle_status = IDLE, '' self._stopped.clear()
self.freeze_status(1, BUSY, 'changed target') self._thread = None
self.setFastPoll(True, 1)
return value
def doPoll(self): def _stop_thread(self):
if self._move_steps == 0: if self._thread:
super().doPoll() self._stopped.set()
self._thread.join()
def _start_thread(self, *args):
self._stop_thread()
thread = threading.Thread(target=self._thread_wrapper, args=args)
self._thread = thread
thread.start()
def write_target(self, target):
if not self.sensor_connected:
raise HardwareError('no sensor connected')
self._stop_thread()
self.io.setTargetRange(self.axis, self.tolerance / self._scale)
if self.step_mode:
self.status = BUSY, 'changed target'
self._start_thread(self._run_drive, target)
else:
self._try_cnt = 0
self.setFastPoll(True, self.fast_interval)
self.io.setTargetPosition(self.axis, target / self._scale)
self.io.setAxisOutput(self.axis, enable=1, autoDisable=0)
self.io.startAutoMove(self.axis, enable=1, relative=0)
self._moving_since = time.time()
self.status = self._get_status()
return target
@Command()
def stop(self):
if self.step_mode:
self._stop_thread()
self._status = IDLE, 'stopped'
elif self._moving_since:
self._moving_since = False # indicate stop
self.read_status()
@Command(IntRange())
def move(self, steps):
"""relative move by number of steps"""
self._stop_thread()
self.read_value()
if steps > 0:
if self.value > self.target_max:
raise BadValueError('above upper limit')
elif self.value < self.target_min:
raise BadValueError('below lower limit')
self.status = self._status = BUSY, 'moving relative'
self._start_thread(self._run_move, steps)
def _run_move(self, steps):
self.setFastPoll(True, self.fast_interval)
self._move_steps(steps)
self.status = self._status = IDLE, ''
def _move_steps(self, steps):
steps = round(steps)
if not steps:
return return
self._hw.startSingleStep(self.axis, self._direction < 0) previous = self._read_pos()
self._move_steps -= self._direction self.io.setAxisOutput(self.axis, enable=1, autoDisable=0)
if self._move_steps % int(self.frequency) == 0: # poll value and status every second # wait for output is really on
super().doPoll() for i in range(100):
self._wait(0.001)
self._get_status()
if self._output:
break
else:
raise ValueError('can not switch on output')
for cnt in range(abs(steps)):
self.io.setAxisOutput(self.axis, enable=1, autoDisable=0)
if not self._thread:
raise Stopped('stopped')
self.io.startSingleStep(self.axis, steps < 0)
self._wait(1 / self.frequency)
self._get_status()
if cnt and not self._output:
steps = cnt
break
self._wait(self.delay)
self.value = self._read_pos()
self._step_size = (self.value - previous) / steps
@Command(IntRange(0))
def calib_steps(self, delta):
"""calibrate steps_fwd and steps_bwd using <delta> steps forwards and backwards"""
if not self.sensor_connected:
raise HardwareError('no sensor connected')
self._stop_thread()
self._status = BUSY, 'calibrate step size'
self.read_status()
self._start_thread(self._run_calib, delta)
def _run_calib(self, steps):
self.value = self._read_pos()
if self._calib_range is None or abs(self.target - self.value) > self._calib_range:
self.target = self.value
maxfwd = 0
maxbwd = 0
cntfwd = 0
cntbwd = 0
self._calib_range = 0
for i in range(10):
if self.value <= self.target:
self._status = BUSY, 'move forwards'
self.read_status()
self._move_steps(steps)
while True:
self._move_steps(steps)
if self._step_size and self._output:
maxfwd = max(maxfwd, self._step_size)
cntfwd += 1
if self.value > self.target:
break
else:
self._status = BUSY, 'move backwards'
self.read_status()
self._move_steps(-steps)
while True:
self._move_steps(-steps)
if self._step_size:
maxbwd = max(maxbwd, self._step_size)
cntbwd += 1
if self.value < self.target:
break
# keep track how far we had to go for calibration
self._calib_range = max(self._calib_range, abs(self.value - self.target))
if cntfwd >= 3 and cntbwd >= 3:
self.steps_fwd = 1 / maxfwd
self.steps_bwd = 1 / maxbwd
self._status = IDLE, 'calib step size done'
break
else:
self._status = WARN, 'calib step size failed'
self.read_status()
@nopoll @nopoll
def read_info(self): def read_info(self):
"""read info from controller""" """read info from controller"""
cap = self._hw.measureCapacitance(self.axis) * 1e9 axistype = ['linear', 'gonio', 'rotator'][self.io.getActuatorType(self.axis)]
axistype = ['linear', 'gonio', 'rotator'][self._hw.getActuatorType(self.axis)] name = self.io.getActuatorName(self.axis)
return '%s %s %.3gnF' % (self._hw.getActuatorName(self.axis), axistype, cap) cap = self.io.measureCapacitance(self.axis) * 1e9
return f'{name} {axistype} {cap:.3g}nF'
def _stop(self):
self._move_steps = 0
self._history = None
for _ in range(5):
try:
self._hw.startAutoMove(self.axis, enable=0, relative=0)
break
except Exception as e:
if itry == 4:
raise
self.log.warn('%r', e)
self._hw.setTargetRange(self.axis, self.tolerance / self._scale)
self.setFastPoll(False)
@Command()
def stop(self):
self._idle_status = IDLE, 'stopped' if self.isBusy() else ''
self._stop()
self.status = self._idle_status
@Command(IntRange())
def move(self, value):
"""relative move by number of steps"""
self._direction = 1 if value > 0 else -1
self.check_value(self.value)
self._history = None
if DIRECTION_NAME[self._direction] in self._error_state:
raise BadValueError('can not move (%s)' % self._error_state)
self._move_steps = value
self._idle_status = IDLE, ''
self.read_status()
self.setFastPoll(True, 1/self.frequency)

116
frappy_psi/cetoni_pump.py Normal file
View File

@ -0,0 +1,116 @@
libpath = '/home/l_samenv/frappy/cetoniSDK/CETONI_SDK_Raspi_64bit_v20220627/python/src/'
import sys
if libpath not in sys.path:
sys.path.append(libpath)
from frappy.core import Drivable, Readable, StringIO, HasIO, FloatRange, IntRange, StringType, BoolType, EnumType, \
Parameter, Property, PersistentParam, Command, IDLE, BUSY, ERROR, Attached
from qmixsdk import qmixbus
from qmixsdk import qmixpump
from qmixsdk import qmixvalve
from qmixsdk.qmixbus import UnitPrefix, TimeUnit
class LabCannBus(Readable):
deviceconfig = Property('config files', StringType(),default="/home/l_samenv/frappy/cetoniSDK/CETONI_SDK_Raspi_64bit_v20220627/config/dual_pumps")
def earlyInit(self):
super().earlyInit()
self.bus = qmixbus.Bus()
self.bus.open(self.deviceconfig, "")
def initModule(self):
super().initModule()
self.bus.start()
def shutdownModule(self):
"""Not so gracefully close the connection"""
self.bus.stop()
self.bus.close()
class SyringePump(Drivable):
io = Attached()
pump_name = Property('name of pump', StringType(),default="Nemesys_S_1_Pump")
valve_name = Property('name of valve', StringType(),default="Nemesys_S_1_Valve")
inner_diameter_set = Property('inner diameter', FloatRange(), default=1)
piston_stroke_set = Property('piston stroke', FloatRange(), default=60)
value = PersistentParam('volume', FloatRange(unit='mL'))
status = PersistentParam()
max_flow_rate = Parameter('max flow rate', FloatRange(0,100000, unit='mL/min',), readonly=True)
max_volume = Parameter('max volume', FloatRange(0,100000, unit='mL',), readonly=True)
target_flow_rate = Parameter('target flow rate', FloatRange(unit='mL/min'), readonly=False)
real_flow_rate = Parameter('actual flow rate', FloatRange(unit='mL/min'), readonly=True)
target = Parameter('target volume', FloatRange(unit='mL'), readonly=False)
no_of_valve_pos = Property('number of valve positions', IntRange(0,10), default=1)
valve_pos = Parameter('valve position', EnumType('valve', CLOSED=0, APP=1, RES=2, OPEN=3), readonly=False)
def initModule(self):
super().initModule()
self.pump = qmixpump.Pump()
self.pump.lookup_by_name(self.pump_name)
self.valve = qmixvalve.Valve()
self.valve.lookup_by_name(self.valve_name)
def initialReads(self):
if self.pump.is_in_fault_state():
self.pump.clear_fault()
if not self.pump.is_enabled():
self.pump.enable(True)
self.pump.set_syringe_param(self.inner_diameter_set, self.piston_stroke_set)
self.pump.set_volume_unit(qmixpump.UnitPrefix.milli, qmixpump.VolumeUnit.litres)
self.pump.set_flow_unit(qmixpump.UnitPrefix.milli, qmixpump.VolumeUnit.litres, qmixpump.TimeUnit.per_minute)
self.max_flow_rate = self.pump.get_flow_rate_max()
self.max_volume = self.pump.get_volume_max()
self.no_of_valve_pos = self.valve.number_of_valve_positions()
self.valve_pos = self.valve.actual_valve_position()
self.target_flow_rate = self.max_flow_rate * 0.5
self.target = self.pump.get_fill_level()
def read_value(self):
return self.pump.get_fill_level()
def write_target(self, target):
self.pump.set_fill_level(target, self.target_flow_rate)
self.status = BUSY, 'Target changed'
return target
def write_target_flow_rate(self, rate):
self.pump.target_flow_rate = rate
return rate
def read_real_flow_rate(self):
return self.pump.get_flow_is()
def read_valve_pos(self):
return self.valve.actual_valve_position()
def write_valve_pos(self, target_pos):
self.valve.switch_valve_to_position(target_pos)
return target_pos
def read_status(self):
fault_state = self.pump.is_in_fault_state()
pumping = self.pump.is_pumping()
if fault_state == True:
return ERROR, 'Pump in fault state'
elif pumping == True:
return BUSY, 'Pumping'
else:
return IDLE, ''
@Command
def stop(self):
self.pump.stop_pumping()
self.target = self.pump.get_fill_level()

126
frappy_psi/dilsc.py
View File

@ -1,3 +1,4 @@
# -*- coding: utf-8 -*-
# ***************************************************************************** # *****************************************************************************
# This program is free software; you can redistribute it and/or modify it under # This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software # the terms of the GNU General Public License as published by the Free Software
@ -18,79 +19,78 @@
# ***************************************************************************** # *****************************************************************************
"""vector field""" """vector field"""
from frappy.core import Drivable, Done, BUSY, IDLE, WARN, ERROR import math
from frappy.errors import BadValueError from frappy.core import Drivable, Done, BUSY, IDLE, ERROR, Parameter, TupleOf, ArrayOf, FloatRange
from frappy.errors import RangeError
from frappy_psi.vector import Vector from frappy_psi.vector import Vector
from frappy.states import HasStates, Retry, status_code
DECREASE = 1 DECREASE = 1
INCREASE = 2 INCREASE = 2
class VectorField(Vector, Drivable): class VectorField(HasStates, Vector, Drivable):
_state = None sphere_radius = Parameter('max. sphere', datatype=FloatRange(0, 0.7, unit='T'), readonly=True, default=0.6)
cylinders = Parameter('allowed cylinders (list of radius and height)',
datatype=ArrayOf(TupleOf(FloatRange(0, 0.6, unit='T'), FloatRange(0, 5.2, unit='T')), 1, 9),
readonly=True, default=((0.23, 5.2), (0.45, 0.8)))
def doPoll(self): def initModule(self):
"""periodically called method""" super().initModule()
try: # override check_limits of the components with a check for restrictions on the vector
if self._starting: for idx, component in enumerate(self.components):
# first decrease components
driving = False def outer_check(target, vector=self, i=idx, inner_check=component.check_target):
for target, component in zip(self.target, self.components): inner_check(target)
if target * component.value < 0: value = [c.value - math.copysign(c.tolerance, c.value)
# change sign: drive to zero first for c in vector.components]
target = 0 value[i] = target
if abs(target) < abs(component.target): vector._check_limits(value)
if target != component.target:
component.write_target(target) component.check_target = outer_check
if component.isDriving():
driving = True
if driving:
return
# now we can go to the final targets
for target, component in zip(self.target, self.components):
component.write_target(target)
self._starting = False
else:
for component in self.components:
if component.isDriving():
return
self.setFastPoll(False)
finally:
super().doPoll()
def merge_status(self): def merge_status(self):
names = [c.name for c in self.components if c.status[0] >= ERROR]
if names:
return ERROR, 'error in %s' % ', '.join(names)
names = [c.name for c in self.components if c.isDriving()]
if self._state:
# self.log.info('merge %r', [c.status for c in self.components])
if names:
direction = 'down ' if self._state == DECREASE else ''
return BUSY, 'ramping %s%s' % (direction, ', '.join(names))
if self.status[0] == BUSY:
return self.status return self.status
return BUSY, 'driving'
if names:
return WARN, 'moving %s directly' % ', '.join(names)
names = [c.name for c in self.components if c.status[0] >= WARN]
if names:
return WARN, 'warnings in %s' % ', '.join(names)
return IDLE, ''
def write_target(self, value): def _check_limits(self, value):
"""check if value is within one of the safe shapes"""
if sum((v ** 2 for v in value)) <= self.sphere_radius ** 2:
return
for r, h in self.cylinders:
if sum(v ** 2 for v in value[0:2]) <= r ** 2 and abs(value[2]) <= h:
return
raise RangeError('vector %s does not fit in any limiting shape' % repr(value))
def write_target(self, target):
"""initiate target change""" """initiate target change"""
# first make sure target is valid # check limits first
for target, component in zip(self.target, self.components): for component_target, component in zip(target, self.components):
# check against limits if individual components # check against limits of individual components
component.check_limits(target) component.check_target(component_target, vector=None) # no outer check here!
if sum(v * v for v in value) > 1: self._check_limits(target)
raise BadValueError('norm of vector too high') for component_target, component in zip(target, self.components):
self.log.info('decrease') if component_target * component.value < 0:
self.setFastPoll(True) # change sign: drive to zero first
self.target = value component_target = 0
self._state = DECREASE if abs(component_target) > abs(component.value):
self.doPoll() continue # do not drive yet
self.log.info('done write_target %r', value) component.write_target(component_target)
return Done self.start_machine(self.ramp_down, target=target)
return target
@status_code(BUSY)
def ramp_down(self, state):
for target, component in zip(state.target, self.components):
if component.isDriving():
return Retry()
for target, component in zip(state.target, self.components):
component.write_target(target)
return self.final_ramp
@status_code(BUSY)
def final_ramp(self, state):
for component in self.components:
if component.isDriving():
return Retry()
return self.final_status()

2
frappy_psi/magfield.py
View File

@ -120,7 +120,7 @@ class SimpleMagfield(HasStates, Drivable):
return last return last
def write_target(self, target): def write_target(self, target):
self.start_machine(self.start_field_change, target=target) self.start_machine(self.start_field_change, target=target, try_cnt=0)
return target return target
def init_progress(self, sm, value): def init_progress(self, sm, value):

1
frappy_psi/mercury.py
View File

@ -63,6 +63,7 @@ fast_slow = Mapped(ON=0, OFF=1) # maps OIs slow=ON/fast=OFF to sample_rate.slow
class IO(StringIO): class IO(StringIO):
identification = [('*IDN?', r'IDN:OXFORD INSTRUMENTS:*')] identification = [('*IDN?', r'IDN:OXFORD INSTRUMENTS:*')]
timeout = 5
class MercuryChannel(HasIO): class MercuryChannel(HasIO):

4
frappy_psi/motorvalve.py
View File

@ -198,6 +198,10 @@ class MotorValve(PersistentMixin, Drivable):
@Command @Command
def stop(self): def stop(self):
"""stop at current position
state will probably be undefined
"""
self._state.stop() self._state.stop()
self.motor.stop() self.motor.stop()

63
frappy_psi/parmod.py
View File

@ -22,7 +22,7 @@
"""modules to access parameters""" """modules to access parameters"""
from frappy.core import Drivable, EnumType, IDLE, Attached, StringType, Property, \ from frappy.core import Drivable, EnumType, IDLE, Attached, StringType, Property, \
Parameter, FloatRange, BoolType, Readable, ERROR Parameter, BoolType, FloatRange, Readable, ERROR, nopoll
from frappy.errors import ConfigError from frappy.errors import ConfigError
from frappy_psi.convergence import HasConvergence from frappy_psi.convergence import HasConvergence
from frappy_psi.mixins import HasRamp from frappy_psi.mixins import HasRamp
@ -59,8 +59,12 @@ class Driv(Drivable):
read = Attached(description='<module>.<parameter> for read') read = Attached(description='<module>.<parameter> for read')
write = Attached(description='<module>.<parameter> for read') write = Attached(description='<module>.<parameter> for read')
unit = Property('main unit', StringType()) unit = Property('main unit', StringType())
__error = None
__status = None
def setProperty(self, key, value): def setProperty(self, key, value):
# split properties read/write (including .<param>)
# into read/write (modules) and read_param/write_param (parameters)
if key in ('read', 'write'): if key in ('read', 'write'):
value, param = value.split('.') value, param = value.split('.')
setattr(self, f'{key}_param', param) setattr(self, f'{key}_param', param)
@ -72,22 +76,44 @@ class Driv(Drivable):
raise ConfigError('illegal recursive read/write module') raise ConfigError('illegal recursive read/write module')
super().checkProperties() super().checkProperties()
#def registerUpdates(self): def registerUpdates(self):
# self.read.valueCallbacks[self.read_param].append(self.update_value) if self.read_param == 'value':
# self.write.valueCallbacks[self.write_param].append(self.update_target) try:
# self.read.addCallback('status', self.updateReadStatus)
#def startModule(self, start_events): except KeyError:
# start_events.queue(self.registerUpdates) pass # may be not needed: value is present but not status
# super().startModule(start_events) self.read.addCallback(self.read_param, self.updateValue)
self.write.addCallback(self.write_param, self.announceUpdate, 'target')
def updateReadStatus(self, status, err=None):
self.__status = status
self.read_status()
def updateValue(self, value, err=None):
self.announceUpdate('value', value, err)
if err != self.__error:
self.__error = err
self.read_status()
def startModule(self, start_events):
start_events.queue(self.registerUpdates)
super().startModule(start_events)
@nopoll
def read_value(self): def read_value(self):
return getattr(self.read, f'{self.read_param}') return getattr(self.read, f'read_{self.read_param}')()
@nopoll
def read_target(self): def read_target(self):
return getattr(self.write, f'{self.write_param}') return getattr(self.write, f'read_{self.write_param}')()
@nopoll
def read_status(self): def read_status(self):
return IDLE, '' if self.__status:
if self.__status[0] < ERROR and self.__error:
return ERROR, repr(self.__error)
return self.__status
return (ERROR, repr(self.__error)) if self.__error else (IDLE, '')
def write_target(self, target): def write_target(self, target):
return getattr(self.write, f'write_{self.write_param}')(target) return getattr(self.write, f'write_{self.write_param}')(target)
@ -101,19 +127,6 @@ class Converging(HasConvergence, Driv):
self.parameters['tolerance'].setProperty('unit', self.unit) self.parameters['tolerance'].setProperty('unit', self.unit)
super().checkProperties() super().checkProperties()
#def update_value(self, value):
# print('UV', value)
# self.value = value
#def error_update_value(self, err):
# raise err
#def update_target(self, value):
# self.target = value
#def error_update_target(self, err):
# raise err
def write_target(self, target): def write_target(self, target):
self.convergence_start() self.convergence_start()
return super().write_target(target) return super().write_target(target)
@ -130,7 +143,7 @@ def set_enabled(modobj, value):
def get_value(obj, default): def get_value(obj, default):
"""get the value of given module. if not valid, return the limit (min_high or max_low)""" """get the value of given module. if not valid, return the default"""
if not getattr(obj, 'enabled', True): if not getattr(obj, 'enabled', True):
return default return default
# consider also that a value 0 is invalid # consider also that a value 0 is invalid

6
frappy_psi/ppms.py
View File

@ -483,6 +483,10 @@ class Temp(PpmsDrivable):
self._expected_target_time = time.time() + abs(target - self.value) * 60.0 / max(0.1, ramp) self._expected_target_time = time.time() + abs(target - self.value) * 60.0 / max(0.1, ramp)
def stop(self): def stop(self):
"""set setpoint to current value
but restrict to values between last target and current target
"""
if not self.isDriving(): if not self.isDriving():
return return
if self.status[0] != StatusType.STABILIZING: if self.status[0] != StatusType.STABILIZING:
@ -612,6 +616,7 @@ class Field(PpmsDrivable):
# do not execute FIELD command, as this would trigger a ramp up of leads current # do not execute FIELD command, as this would trigger a ramp up of leads current
def stop(self): def stop(self):
"""stop at current driven Field"""
if not self.isDriving(): if not self.isDriving():
return return
newtarget = clamp(self._last_target, self.value, self.target) newtarget = clamp(self._last_target, self.value, self.target)
@ -714,6 +719,7 @@ class Position(PpmsDrivable):
return value # do not execute MOVE command, as this would trigger an unnecessary move return value # do not execute MOVE command, as this would trigger an unnecessary move
def stop(self): def stop(self):
"""stop motor"""
if not self.isDriving(): if not self.isDriving():
return return
newtarget = clamp(self._last_target, self.value, self.target) newtarget = clamp(self._last_target, self.value, self.target)

1
frappy_psi/qnw.py
View File

@ -141,5 +141,6 @@ class TemperatureLoopTC1(SensorTC1, Drivable):
return value return value
def stop(self): def stop(self):
"""stop at current value (does nothing if ramp is not used)"""
if self.control and self.ramp_used: if self.control and self.ramp_used:
self.write_target(self.value) self.write_target(self.value)

142
frappy_psi/razorbill.py Normal file
View File

@ -0,0 +1,142 @@
# *****************************************************************************
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Module authors:
# Paul M. Neves <pmneves@mit.edu>
# *****************************************************************************
from frappy.core import Readable, Parameter, FloatRange, HasIO, StringIO, Property, IntRange,\
IDLE, BUSY, WARN, ERROR, Drivable, BoolType, Attached, Writable, StructOf
class Temp(Writable):
"""stores sample temperature"""
target = Parameter('target voltage', FloatRange(0, 325, unit='K'),
readonly=False)
def write_target(self, target):
self.value = target
def read_value(self):
return self.value
class Displacement(Readable):
# attached classes for capacitance and temperature
cap = Attached()
temp = Attached()
# modifying a property of inherited parameters (unit is propagated to the FloatRange datatype)
value = Parameter('displacement', FloatRange(None, None, unit='um'), readonly=True)
alpha290K = Parameter('capacitor constant at 290 K', FloatRange(None, None, unit='um pF'), readonly=False)
d0 = Parameter('offset displacement', FloatRange(None, None, unit='um'), readonly=False)
Cp = Parameter('parallel capacitance', FloatRange(None, None, unit='pF'), readonly=False)
d0_curve = Parameter('calibration curve for offset displacement',
StructOf(a=FloatRange(None, None, unit='um'),
b=FloatRange(None, None, unit='um/K'),
c=FloatRange(None, None, unit='um/K^2'),
d=FloatRange(None, None, unit='um/K^3'),
e=FloatRange(None, None, unit='um/K^4'),),
readonly=False)
def read_value(self):
# get temperature and capacitance
temp = self.temp.target
cap = self.cap.value
# calculate displacement from temperature and capacitance
d0_T = self.d0_curve['a'] + self.d0_curve['b']*temp + self.d0_curve['c']*temp**2 + self.d0_curve['d']*temp**3 + self.d0_curve['e']*temp**4
disp = self.alpha290K / (cap - self.Cp) - self.d0 - d0_T
return disp
class Force(Readable):
# attached classes for capacitance and temperature
cap = Attached()
temp = Attached()
# modifying a property of inherited parameters (unit is propagated to the FloatRange datatype)
value = Parameter('force', FloatRange(None, None, unit='N'), readonly=True)
alpha290K = Parameter('capacitor constant at 290 K', FloatRange(None, None, unit='N pF'), readonly=False)
f0 = Parameter('offset force', FloatRange(None, None, unit='N'), readonly=False)
Cp = Parameter('parallel capacitance', FloatRange(None, None, unit='pF'), readonly=False)
f0_curve = Parameter('calibration curve for offset force',
StructOf(a=FloatRange(None, None, unit='N'),
b=FloatRange(None, None, unit='N/K'),
c=FloatRange(None, None, unit='N/K^2'),
d=FloatRange(None, None, unit='N/K^3'),
e=FloatRange(None, None, unit='N/K^4'),),
readonly=False)
def read_value(self):
# get temperature and capacitance
temp = self.temp.target
cap = self.cap.value
# calculate force from temperature and capacitance
alpha = self.alpha290K * (0.91 + 5e-5*temp + 9e-7*temp**2)
f0_T = self.f0_curve['a'] + self.f0_curve['b']*temp + self.f0_curve['c']*temp**2 + self.f0_curve['d']*temp**3 + self.f0_curve['e']*temp**4
force = alpha / (cap - self.Cp) - self.f0 - f0_T
return force
class Stress(Readable):
# attached classes for displacement
force = Attached()
# modifying a property of inherited parameters (unit is propagated to the FloatRange datatype)
value = Parameter('stress', FloatRange(None, None, unit='GPa'), readonly=True)
area = Parameter('cross sectional area of sample in mm^2', FloatRange(None, None, unit='mm^2'), readonly=False)
def read_value(self):
return self.force.value / self.area / 1000
class Strain(Readable):
# attached classes for displacement
displacement = Attached()
# modifying a property of inherited parameters (unit is propagated to the FloatRange datatype)
value = Parameter('strain', FloatRange(None, None, unit='m/m'), readonly=True)
L = Parameter('length of sample in mm', FloatRange(None, None, unit='mm'), readonly=False)
def read_value(self):
return self.displacement.value / (1000*self.L)
class YoungsModulus(Readable):
# attached classes for displacement
stress = Attached()
strain = Attached()
# modifying a property of inherited parameters (unit is propagated to the FloatRange datatype)
value = Parameter('Young\'s modulus', FloatRange(None, None, unit='GPa'), readonly=True)
def read_value(self):
if self.strain.value:
return self.stress.value / self.strain.value
else:
return 0

161
frappy_psi/sea.py
View File

@ -39,12 +39,13 @@ from os.path import expanduser, join, exists
from frappy.client import ProxyClient from frappy.client import ProxyClient
from frappy.datatypes import ArrayOf, BoolType, \ from frappy.datatypes import ArrayOf, BoolType, \
EnumType, FloatRange, IntRange, StringType EnumType, FloatRange, IntRange, StringType
from frappy.errors import ConfigError, HardwareError, secop_error, CommunicationFailedError from frappy.core import IDLE, BUSY, ERROR
from frappy.errors import ConfigError, HardwareError, CommunicationFailedError
from frappy.lib import generalConfig, mkthread from frappy.lib import generalConfig, mkthread
from frappy.lib.asynconn import AsynConn, ConnectionClosed from frappy.lib.asynconn import AsynConn, ConnectionClosed
from frappy.modules import Attached, Command, Done, Drivable, \ from frappy.modulebase import Done
from frappy.modules import Attached, Command, Drivable, \
Module, Parameter, Property, Readable, Writable Module, Parameter, Property, Readable, Writable
from frappy.protocol.dispatcher import make_update
CFG_HEADER = """Node('%(config)s.sea.psi.ch', CFG_HEADER = """Node('%(config)s.sea.psi.ch',
@ -99,7 +100,7 @@ class SeaClient(ProxyClient, Module):
"""connection to SEA""" """connection to SEA"""
uri = Parameter('hostname:portnumber', datatype=StringType(), default='localhost:5000') uri = Parameter('hostname:portnumber', datatype=StringType(), default='localhost:5000')
timeout = Parameter('timeout', datatype=FloatRange(0), default=10) timeout = Parameter('timeout for connecting and requests', datatype=FloatRange(0), default=10)
config = Property("""needed SEA configuration, space separated config = Property("""needed SEA configuration, space separated
Example: "ori4.config ori4.stick" Example: "ori4.config ori4.stick"
@ -107,7 +108,6 @@ class SeaClient(ProxyClient, Module):
service = Property("main/stick/addons", StringType(), default='') service = Property("main/stick/addons", StringType(), default='')
visibility = 'expert' visibility = 'expert'
default_json_file = {} default_json_file = {}
_connect_thread = None
_instance = None _instance = None
_last_connect = 0 _last_connect = 0
@ -124,6 +124,8 @@ class SeaClient(ProxyClient, Module):
self.shutdown = False self.shutdown = False
self.path2param = {} self.path2param = {}
self._write_lock = threading.Lock() self._write_lock = threading.Lock()
self._connect_thread = None
self._connected = threading.Event()
config = opts.get('config') config = opts.get('config')
if isinstance(config, dict): if isinstance(config, dict):
config = config['value'] config = config['value']
@ -135,14 +137,12 @@ class SeaClient(ProxyClient, Module):
Module.__init__(self, name, log, opts, srv) Module.__init__(self, name, log, opts, srv)
def doPoll(self): def doPoll(self):
if not self.asynio and time.time() > self._last_connect + 10: if not self._connected.is_set() and time.time() > self._last_connect + self.timeout:
with self._write_lock:
# make sure no more connect thread is running
if self._connect_thread and self._connect_thread.isAlive():
return
if not self._last_connect: if not self._last_connect:
self.log.info('reconnect to SEA %s', self.service) self.log.info('reconnect to SEA %s', self.service)
self._connect_thread = mkthread(self._connect, None) if self._connect_thread is None:
self._connect_thread = mkthread(self._connect)
self._connected.wait(self.timeout)
def register_obj(self, module, obj): def register_obj(self, module, obj):
self.objects.add(obj) self.objects.add(obj)
@ -150,15 +150,13 @@ class SeaClient(ProxyClient, Module):
self.path2param.setdefault(k, []).extend(v) self.path2param.setdefault(k, []).extend(v)
self.register_callback(module.name, module.updateEvent) self.register_callback(module.name, module.updateEvent)
def _connect(self, started_callback): def _connect(self):
self.asynio = None try:
if self.syncio: if self.syncio:
# trigger syncio reconnect in self.request()
try: try:
self.syncio.disconnect() self.syncio.disconnect()
except Exception: except Exception:
pass pass
self.syncio = None
self._last_connect = time.time() self._last_connect = time.time()
if self._instance: if self._instance:
try: try:
@ -179,38 +177,40 @@ class SeaClient(ProxyClient, Module):
break break
else: else:
raise CommunicationFailedError('reply %r should be "Login OK"' % reply) raise CommunicationFailedError('reply %r should be "Login OK"' % reply)
result = self.request('frappy_config %s %s' % (self.service, self.config)) self.syncio = AsynConn(self.uri)
assert self.syncio.readline() == b'OK'
self.syncio.writeline(b'seauser seaser')
assert self.syncio.readline() == b'Login OK'
result = self.raw_request('frappy_config %s %s' % (self.service, self.config))
if result.startswith('ERROR:'): if result.startswith('ERROR:'):
raise CommunicationFailedError(f'reply from frappy_config: {result}') raise CommunicationFailedError(f'reply from frappy_config: {result}')
# frappy_async_client switches to the json protocol (better for updates) # frappy_async_client switches to the json protocol (better for updates)
self.asynio.writeline(b'frappy_async_client') self.asynio.writeline(b'frappy_async_client')
self.asynio.writeline(('get_all_param ' + ' '.join(self.objects)).encode()) self.asynio.writeline(('get_all_param ' + ' '.join(self.objects)).encode())
self.log.info('connected to %s', self.uri)
self._connected.set()
mkthread(self._rxthread)
finally:
self._connect_thread = None self._connect_thread = None
mkthread(self._rxthread, started_callback)
def request(self, command, quiet=False): def request(self, command, quiet=False):
"""send a request and wait for reply"""
with self._write_lock: with self._write_lock:
if not self.syncio or not self.syncio.connection: if not self._connected.is_set():
if not self.asynio or not self.asynio.connection: if self._connect_thread is None:
try:
self._connect_thread.join()
except AttributeError:
pass
# let doPoll do the reconnect # let doPoll do the reconnect
self.pollInfo.trigger(True) self.pollInfo.trigger(True)
raise ConnectionClosed('disconnected - reconnect later') raise ConnectionClosed('disconnected - reconnect is tried later')
self.syncio = AsynConn(self.uri) return self.raw_request(command, quiet)
assert self.syncio.readline() == b'OK'
self.syncio.writeline(b'seauser seaser') def raw_request(self, command, quiet=False):
assert self.syncio.readline() == b'Login OK' """send a request and wait for reply"""
self.log.info('connected to %s', self.uri)
try: try:
self.syncio.flush_recv() self.syncio.flush_recv()
ft = 'fulltransAct' if quiet else 'fulltransact' ft = 'fulltransAct' if quiet else 'fulltransact'
self.syncio.writeline(('%s %s' % (ft, command)).encode()) self.syncio.writeline(('%s %s' % (ft, command)).encode())
result = None result = None
deadline = time.time() + 10 deadline = time.time() + self.timeout
while time.time() < deadline: while time.time() < deadline:
reply = self.syncio.readline() reply = self.syncio.readline()
if reply is None: if reply is None:
@ -233,16 +233,22 @@ class SeaClient(ProxyClient, Module):
result = [reply.split('=', 1)[-1]] result = [reply.split('=', 1)[-1]]
else: else:
result.append(reply) result.append(reply)
raise TimeoutError('no response within 10s')
except ConnectionClosed: except ConnectionClosed:
self.close_connections()
raise
def close_connections(self):
connections = self.syncio, self.asynio
self.syncio = self.asynio = None
for conn in connections:
try: try:
self.syncio.disconnect() conn.disconnect()
except Exception: except Exception:
pass pass
self.syncio = None self._connected.clear()
raise
raise TimeoutError('no response within 10s')
def _rxthread(self, started_callback): def _rxthread(self):
recheck = None recheck = None
while not self.shutdown: while not self.shutdown:
if recheck and time.time() > recheck: if recheck and time.time() > recheck:
@ -258,11 +264,7 @@ class SeaClient(ProxyClient, Module):
if reply is None: if reply is None:
continue continue
except ConnectionClosed: except ConnectionClosed:
try: self.close_connections()
self.asynio.disconnect()
except Exception:
pass
self.asynio = None
break break
try: try:
msg = json.loads(reply) msg = json.loads(reply)
@ -289,9 +291,6 @@ class SeaClient(ProxyClient, Module):
data = msg['data'] data = msg['data']
if flag == 'finish' and obj == 'get_all_param': if flag == 'finish' and obj == 'get_all_param':
# first updates have finished # first updates have finished
if started_callback:
started_callback()
started_callback = None
continue continue
if flag != 'hdbevent': if flag != 'hdbevent':
if obj not in ('frappy_async_client', 'get_all_param'): if obj not in ('frappy_async_client', 'get_all_param'):
@ -352,7 +351,7 @@ class SeaClient(ProxyClient, Module):
class SeaConfigCreator(SeaClient): class SeaConfigCreator(SeaClient):
def startModule(self, start_events): def startModule(self, start_events):
"""save objects (and sub-objects) description and exit""" """save objects (and sub-objects) description and exit"""
self._connect(None) self._connect()
reply = self.request('describe_all') reply = self.request('describe_all')
reply = ''.join('' if line.startswith('WARNING') else line for line in reply.split('\n')) reply = ''.join('' if line.startswith('WARNING') else line for line in reply.split('\n'))
description, reply = json.loads(reply) description, reply = json.loads(reply)
@ -644,22 +643,7 @@ class SeaModule(Module):
if upd: if upd:
upd(value, timestamp, readerror) upd(value, timestamp, readerror)
return return
try: self.announceUpdate(parameter, value, readerror, timestamp)
pobj = self.parameters[parameter]
except KeyError:
self.log.error('do not know %s:%s', self.name, parameter)
raise
pobj.timestamp = timestamp
# should be done here: deal with clock differences
if not readerror:
try:
pobj.value = value # store the value even in case of a validation error
pobj.value = pobj.datatype(value)
except Exception as e:
readerror = secop_error(e)
pobj.readerror = readerror
if pobj.export:
self.secNode.srv.dispatcher.broadcast_event(make_update(self.name, pobj))
def initModule(self): def initModule(self):
self.io.register_obj(self, self.sea_object) self.io.register_obj(self, self.sea_object)
@ -670,20 +654,35 @@ class SeaModule(Module):
class SeaReadable(SeaModule, Readable): class SeaReadable(SeaModule, Readable):
_readerror = None
_status = IDLE, ''
def update_value(self, value, timestamp, readerror):
# make sure status is always ERROR when reading value fails
self._readerror = readerror
if readerror:
self.read_status() # forced ERROR status
self.announceUpdate('value', value, readerror, timestamp)
else: # order is important
self.value = value # includes announceUpdate
self.read_status() # send event for ordinary self._status
def update_status(self, value, timestamp, readerror): def update_status(self, value, timestamp, readerror):
if readerror: if readerror:
value = repr(readerror) value = f'{readerror.name} - {readerror}'
if value == '': if value == '':
self.status = (self.Status.IDLE, '') self._status = IDLE, ''
else: else:
self.status = (self.Status.ERROR, value) self._status = ERROR, value
self.read_status()
def read_status(self): def read_status(self):
return self.status if self._readerror:
return ERROR, f'{self._readerror.name} - {self._readerror}'
return self._status
class SeaWritable(SeaModule, Writable): class SeaWritable(SeaReadable, Writable):
def read_value(self): def read_value(self):
return self.target return self.target
@ -693,20 +692,13 @@ class SeaWritable(SeaModule, Writable):
self.value = value self.value = value
class SeaDrivable(SeaModule, Drivable): class SeaDrivable(SeaReadable, Drivable):
_sea_status = ''
_is_running = 0 _is_running = 0
def earlyInit(self): def earlyInit(self):
super().earlyInit() super().earlyInit()
self._run_event = threading.Event() self._run_event = threading.Event()
def read_status(self):
return self.status
# def read_target(self):
# return self.target
def write_target(self, value): def write_target(self, value):
self._run_event.clear() self._run_event.clear()
self.io.query(f'run {self.sea_object} {value}') self.io.query(f'run {self.sea_object} {value}')
@ -714,25 +706,20 @@ class SeaDrivable(SeaModule, Drivable):
self.log.warn('target changed but is_running stays 0') self.log.warn('target changed but is_running stays 0')
return value return value
def update_status(self, value, timestamp, readerror):
if not readerror:
self._sea_status = value
self.updateStatus()
def update_is_running(self, value, timestamp, readerror): def update_is_running(self, value, timestamp, readerror):
if not readerror: if not readerror:
self._is_running = value self._is_running = value
self.updateStatus() self.read_status()
if value: if value:
self._run_event.set() self._run_event.set()
def updateStatus(self): def read_status(self):
if self._sea_status: status = super().read_status()
self.status = (self.Status.ERROR, self._sea_status) if self._is_running:
elif self._is_running: if status[0] >= ERROR:
self.status = (self.Status.BUSY, 'driving') return ERROR, 'BUSY + ' + status[1]
else: return BUSY, 'driving'
self.status = (self.Status.IDLE, '') return status
def updateTarget(self, module, parameter, value, timestamp, readerror): def updateTarget(self, module, parameter, value, timestamp, readerror):
if value is not None: if value is not None:

45
frappy_psi/softcal.py
View File

@ -27,7 +27,7 @@ import numpy as np
from scipy.interpolate import splev, splrep # pylint: disable=import-error from scipy.interpolate import splev, splrep # pylint: disable=import-error
from frappy.core import Attached, BoolType, Parameter, Readable, StringType, \ from frappy.core import Attached, BoolType, Parameter, Readable, StringType, \
FloatRange FloatRange, nopoll
def linear(x): def linear(x):
@ -195,35 +195,40 @@ class Sensor(Readable):
if self.description == '_': if self.description == '_':
self.description = f'{self.rawsensor!r} calibrated with curve {self.calib!r}' self.description = f'{self.rawsensor!r} calibrated with curve {self.calib!r}'
def doPoll(self):
self.read_status()
def write_calib(self, value): def write_calib(self, value):
self._calib = CalCurve(value) self._calib = CalCurve(value)
return value return value
def update_value(self, value): def _get_value(self, rawvalue):
if self.abs: if self.abs:
value = abs(float(value)) rawvalue = abs(float(rawvalue))
self.value = self._calib(value) return self._calib(rawvalue)
self._value_error = None
def error_update_value(self, err): def _get_status(self, rawstatus):
return rawstatus if self._value_error is None else (self.Status.ERROR, self._value_error)
def update_value(self, rawvalue, err=None):
if err:
if self.abs and str(err) == 'R_UNDER': # hack: ignore R_UNDER from ls370 if self.abs and str(err) == 'R_UNDER': # hack: ignore R_UNDER from ls370
self._value_error = None self._value_error = None
return None return
self._value_error = repr(err) err = repr(err)
raise err
def update_status(self, value):
if self._value_error is None:
self.status = value
else: else:
self.status = self.Status.ERROR, self._value_error try:
self.value = self._get_value(rawvalue)
except Exception as e:
err = repr(e)
if err != self._value_error:
self._value_error = err
self.status = self._get_status(self.rawsensor.status)
def update_status(self, rawstatus):
self.status = self._get_status(rawstatus)
@nopoll
def read_value(self): def read_value(self):
return self._calib(self.rawsensor.read_value()) return self._get_value(self.rawsensor.read_value())
@nopoll
def read_status(self): def read_status(self):
self.update_status(self.rawsensor.status) return self._get_status(self.rawsensor.read_status())
return self.status

1
frappy_psi/uniax.py
View File

@ -411,6 +411,7 @@ class Uniax(PersistentMixin, Drivable):
@Command() @Command()
def stop(self): def stop(self):
"""stop motor and control"""
if self.motor.isBusy(): if self.motor.isBusy():
self.log.info('stop motor') self.log.info('stop motor')
self.motor_stop() self.motor_stop()

2
requirements.txt
View File

@ -5,6 +5,8 @@ mlzlog >=0.2.0
# daemonizing # daemonizing
psutil psutil
python-daemon >=2.0 python-daemon >=2.0
# websocket interface:
websockets>=11.0
# for zmq interface # for zmq interface
#pyzmq>=13.1.0 #pyzmq>=13.1.0
#for ppms on windows #for ppms on windows

24
test/test_attach.py
View File

@ -19,6 +19,7 @@
# #
# ***************************************************************************** # *****************************************************************************
from frappy.io import HasIO
from frappy.modules import Module, Attached from frappy.modules import Module, Attached
from frappy.protocol.dispatcher import Dispatcher from frappy.protocol.dispatcher import Dispatcher
@ -29,6 +30,9 @@ class LoggerStub:
info = warning = exception = debug info = warning = exception = debug
handlers = [] handlers = []
def getChild(self, name):
return self
logger = LoggerStub() logger = LoggerStub()
@ -51,6 +55,7 @@ class ServerStub:
def __init__(self): def __init__(self):
self.secnode = SecNodeStub() self.secnode = SecNodeStub()
self.dispatcher = Dispatcher('dispatcher', logger, {}, self) self.dispatcher = Dispatcher('dispatcher', logger, {}, self)
self.log = logger
def test_attach(): def test_attach():
@ -64,3 +69,22 @@ def test_attach():
srv.secnode.add_module(a, 'a') srv.secnode.add_module(a, 'a')
srv.secnode.add_module(m, 'm') srv.secnode.add_module(m, 'm')
assert m.att == a assert m.att == a
def test_attach_hasio_uri():
class TestIO(Module):
def __init__(self, name, logger, cfgdict, srv):
self._uri = cfgdict.pop('uri')
super().__init__(name, logger, cfgdict, srv)
class HasIOTest(HasIO):
ioClass = TestIO
srv = ServerStub()
m = HasIOTest('m', logger, {'description': '', 'uri': 'abc'}, srv)
assert srv.secnode.modules['m_io']._uri == 'abc'
assert m.io == srv.secnode.modules['m_io']
# two modules with the same IO should use the same io module
m2 = HasIOTest('m', logger, {'description': '', 'uri': 'abc'}, srv)
assert m2.io == srv.secnode.modules['m_io']

155
test/test_callbacks.py Normal file
View File

@ -0,0 +1,155 @@
# *****************************************************************************
#
# This program is free software; you can redistribute it and/or modify it under
# the terms of the GNU General Public License as published by the Free Software
# Foundation; either version 2 of the License, or (at your option) any later
# version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
# details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Module authors:
# Markus Zolliker <markus.zolliker@psi.ch>
#
# *****************************************************************************
"""test parameter callbacks"""
from test.test_modules import LoggerStub, ServerStub
import pytest
from frappy.core import Module, Parameter, FloatRange
from frappy.errors import WrongTypeError
WRONG_TYPE = WrongTypeError()
class Mod(Module):
a = Parameter('', FloatRange())
b = Parameter('', FloatRange())
c = Parameter('', FloatRange())
def read_a(self):
raise WRONG_TYPE
def read_b(self):
raise WRONG_TYPE
def read_c(self):
raise WRONG_TYPE
class Dbl(Module):
a = Parameter('', FloatRange())
b = Parameter('', FloatRange())
c = Parameter('', FloatRange())
_error_a = None
_value_b = None
_error_c = None
def update_a(self, value, err=None):
# treat error updates
try:
self.a = value * 2
except TypeError: # value is None -> err
self.announceUpdate('a', None, err)
def update_b(self, value):
self._value_b = value
# error updates are ignored
self.b = value * 2
def make(cls):
logger = LoggerStub()
srv = ServerStub({})
return cls('mod1', logger, {'description': ''}, srv)
def test_simple_callback():
mod1 = make(Mod)
result = []
def cbfunc(arg1, arg2, value):
result[:] = arg1, arg2, value
mod1.addCallback('a', cbfunc, 'ARG1', 'arg2')
mod1.a = 1.5
assert result == ['ARG1', 'arg2', 1.5]
result.clear()
with pytest.raises(WrongTypeError):
mod1.read_a()
assert not result # callback function is NOT called
def test_combi_callback():
mod1 = make(Mod)
result = []
def cbfunc(arg1, arg2, value, err=None):
result[:] = arg1, arg2, value, err
mod1.addCallback('a', cbfunc, 'ARG1', 'arg2')
mod1.a = 1.5
assert result == ['ARG1', 'arg2', 1.5, None]
result.clear()
with pytest.raises(WrongTypeError):
mod1.read_a()
assert result[:3] == ['ARG1', 'arg2', None] # callback function called with value None
assert isinstance(result[3], WrongTypeError)
def test_autoupdate():
mod1 = make(Mod)
mod2 = make(Dbl)
mod1.registerCallbacks(mod2, autoupdate=['c'])
result = {}
def cbfunc(pname, *args):
result[pname] = args
for param in 'a', 'b', 'c':
mod2.addCallback(param, cbfunc, param)
# test update_a without error
mod1.a = 5
assert mod2.a == 10
assert result.pop('a') == (10,)
# test update_a with error
with pytest.raises(WrongTypeError):
mod1.read_a()
assert result.pop('a') == (None, WRONG_TYPE)
# test that update_b is ignored in case of error
mod1.b = 3
assert mod2.b == 6 # no error
assert result.pop('b') == (6,)
with pytest.raises(WrongTypeError):
mod1.read_b()
assert 'b' not in result
# test autoupdate
mod1.c = 3
assert mod2.c == 3
assert result['c'] == (3,)
with pytest.raises(WrongTypeError):
mod1.read_c()
assert result['c'] == (None, WRONG_TYPE)

79
test/test_ctrlpars.py → test/test_extparams.py
View File

@ -18,12 +18,14 @@
# Markus Zolliker <markus.zolliker@psi.ch> # Markus Zolliker <markus.zolliker@psi.ch>
# #
# ***************************************************************************** # *****************************************************************************
"""test frappy.mixins.HasCtrlPars""" """test frappy.extparams"""
from test.test_modules import LoggerStub, ServerStub from test.test_modules import LoggerStub, ServerStub
import pytest
from frappy.core import FloatRange, Module, Parameter from frappy.core import FloatRange, Module, Parameter
from frappy.structparam import StructParam from frappy.extparams import StructParam, FloatEnumParam
from frappy.errors import ProgrammingError
def test_with_read_ctrlpars(): def test_with_read_ctrlpars():
@ -130,3 +132,76 @@ def test_order_dependence1():
def test_order_dependence2(): def test_order_dependence2():
test_with_read_ctrlpars() test_with_read_ctrlpars()
test_without_read_ctrlpars() test_without_read_ctrlpars()
def test_float_enum():
class Mod(Module):
vrange = FloatEnumParam('voltage range', [
(1, '50uV'), '200 µV', '1mV', ('5mV', 0.006), (9, 'max', 0.024)], 'V')
gain = FloatEnumParam('gain factor', ('1', '2', '4', '8'), idx_name='igain')
dist = FloatEnumParam('distance', ('1m', '1mm', '1µm'), unit='m')
_vrange_idx = None
def write_vrange_idx(self, value):
self._vrange_idx = value
logger = LoggerStub()
updates = {}
srv = ServerStub(updates)
m = Mod('m', logger, {'description': ''}, srv)
assert m.write_vrange_idx(1) == 1
assert m._vrange_idx == '50uV'
assert m._vrange_idx == 1
assert m.vrange == 5e-5
assert m.write_vrange_idx(2) == 2
assert m._vrange_idx == '200 µV'
assert m._vrange_idx == 2
assert m.vrange == 2e-4
assert m.write_vrange(6e-5) == 5e-5 # round to the next value
assert m._vrange_idx == '50uV'
assert m._vrange_idx == 1
assert m.write_vrange(20e-3) == 24e-3 # round to the next value
assert m._vrange_idx == 'max'
assert m._vrange_idx == 9
for idx in range(4):
value = 2 ** idx
updates.clear()
assert m.write_igain(idx) == idx
assert updates == {'m': {'igain': idx, 'gain': value}}
assert m.igain == idx
assert m.igain == str(value)
assert m.gain == value
for idx in range(4):
value = 2 ** idx
assert m.write_gain(value) == value
assert m.igain == idx
assert m.igain == str(value)
for idx in range(3):
value = 10 ** (-3 * idx)
assert m.write_dist(value) == value
assert m.dist_idx == idx
@pytest.mark.parametrize('labels, unit, error', [
(FloatRange(), '', 'not a datatype'), # 2nd arg must not be a datatype
([(1, 2, 3)], '', 'must be strings'), # label is not a string
([(1, '1V', 3, 4)], 'V', 'labels or tuples'), # 4-tuple
([('1A', 3, 4)], 'A', 'labels or tuples'), # two values after label
(('1m', (0, '1k')), '', 'conflicts with'), # two times index 0
(['1mV', '10mA'], 'V', 'not the form'), # wrong unit
(['.mV'], 'V', 'not the form'), # bad number
(['mV'], 'V', 'not the form'), # missing number
(['1+mV'], 'V', 'not the form'), # bad number
])
def test_bad_float_enum(labels, unit, error):
with pytest.raises(ProgrammingError, match=error):
class Mod(Module): # pylint:disable=unused-variable
param = FloatEnumParam('', labels, unit)

29
test/test_modules.py
View File

@ -23,6 +23,8 @@
import sys import sys
import threading import threading
import importlib
from glob import glob
import pytest import pytest
from frappy.datatypes import BoolType, FloatRange, StringType, IntRange, ScaledInteger from frappy.datatypes import BoolType, FloatRange, StringType, IntRange, ScaledInteger
@ -440,12 +442,12 @@ def test_override():
assert Mod.value.value == 5 assert Mod.value.value == 5
assert Mod.stop.description == "no decorator needed" assert Mod.stop.description == "no decorator needed"
class Mod2(Drivable): class Mod2(Mod):
@Command()
def stop(self): def stop(self):
pass pass
assert Mod2.stop.description == Drivable.stop.description # inherit doc string
assert Mod2.stop.description == Mod.stop.description
def test_command_config(): def test_command_config():
@ -920,3 +922,24 @@ def test_interface_classes(bases, iface_classes):
pass pass
m = Mod('mod', LoggerStub(), {'description': 'test'}, srv) m = Mod('mod', LoggerStub(), {'description': 'test'}, srv)
assert m.interface_classes == iface_classes assert m.interface_classes == iface_classes
all_drivables = set()
for pyfile in glob('frappy_*/*.py'):
module = pyfile[:-3].replace('/', '.')
try:
importlib.import_module(module)
except Exception as e:
print(module, e)
continue
for obj_ in sys.modules[module].__dict__.values():
if isinstance(obj_, type) and issubclass(obj_, Drivable):
all_drivables.add(obj_)
@pytest.mark.parametrize('modcls', all_drivables)
def test_stop_doc(modcls):
# make sure that implemented stop methods have a doc string
if (modcls.stop.description == Drivable.stop.description
and modcls.stop.func != Drivable.stop.func):
assert modcls.stop.func.__doc__ # stop method needs a doc string