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ardupilot/libraries/AP_Logger
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Andrew Tridgell 48acb1a2f7 AP_Logger: added LOG_DARM_RATEMAX 
this sets the logging rate max when disarmed. In combination with
LOG_DISARMED=3 it gives a very nice setup to get always on logging
with very little addition to the log sizes. It is particularly useful
in combination with LOG_REPLAY=1
 		2023-04-14 07:48:24 +10:00
..
examples AP_Logger: params always use set method 2022-08-03 13:43:48 +01:00
AP_Logger.cpp AP_Logger: added LOG_DARM_RATEMAX 2023-04-14 07:48:24 +10:00
AP_Logger.h AP_Logger: added LOG_DARM_RATEMAX 2023-04-14 07:48:24 +10:00
AP_Logger_Backend.cpp AP_Logger: added LOG_DARM_RATEMAX 2023-04-14 07:48:24 +10:00
AP_Logger_Backend.h AP_Logger: added LOG_DARM_RATEMAX 2023-04-14 07:48:24 +10:00
AP_Logger_Block.cpp AP_Logger: added LOG_DARM_RATEMAX 2023-04-14 07:48:24 +10:00
AP_Logger_Block.h AP_Logger: ensure that we don't read the same block more than once, dramatically increasing performance. 2022-10-03 07:52:43 +11:00
AP_Logger_DataFlash.cpp AP_Logger: ensure that we don't read the same block more than once, dramatically increasing performance. 2022-10-03 07:52:43 +11:00
AP_Logger_DataFlash.h AP_Logger: ensure that we don't read the same block more than once, dramatically increasing performance. 2022-10-03 07:52:43 +11:00
AP_Logger_File.cpp AP_Logger: added LOG_DARM_RATEMAX 2023-04-14 07:48:24 +10:00
AP_Logger_File.h AP_Logger: added LOG_DISARMED=3 2023-04-14 07:48:24 +10:00
AP_Logger_MAVLink.cpp AP_Logger: added LOG_DARM_RATEMAX 2023-04-14 07:48:24 +10:00
AP_Logger_MAVLink.h AP_Logger: tidy includes 2022-05-03 09:14:58 +10:00
AP_Logger_MAVLinkLogTransfer.cpp AP_Logger: move from HAL_NO_GCS to HAL_GCS_ENABLED 2021-09-22 21:37:00 +10:00
AP_Logger_W25N01GV.cpp AP_Logger: ensure that we don't read the same block more than once, dramatically increasing performance. 2022-10-03 07:52:43 +11:00
AP_Logger_W25N01GV.h AP_Logger: ensure that we don't read the same block more than once, dramatically increasing performance. 2022-10-03 07:52:43 +11:00
AP_Logger_config.h AP_Logger: create and use AP_Logger_config.h 2023-01-03 11:24:14 +11:00
LogFile.cpp AP_Logger: add and use RC_Channel_config.h 2023-03-22 14:25:09 +11:00
LogStructure.h AP_Logger: factor Write_PSC[NED] methods to save bytes 2023-03-10 14:47:33 -08:00
LoggerMessageWriter.cpp AP_Logger: rename HAL_SCHEDULER_ENABLED to AP_SCHEDULER_ENABLED 2023-02-28 11:26:04 +11:00
LoggerMessageWriter.h AP_Logger: prevent long loops due to parameter logging 2022-12-04 18:08:40 +11:00
README.md AP_Logger: add 1e-9 log multiplyer 2022-04-06 17:22:30 +10:00

README.md

Logger Notes

Format Types

The format type specifies the amount of storage required for the entry and how the content should be interpreted.

Char C Type
a int16_t[32]
b int8_t
B uint8_t
h int16_t
H uint16_t
i int32_t
I uint32_t
f float
d double
n char[4]
N char[16]
Z char[64]
L int32_t latitude/longitude (so -35.1332423 becomes -351332423)
M uint8_t flight mode
q int64_t
Q uint64_t

Legacy field types - do not use. These have been replaced by using the base C type and an appropriate multiplier column entry.

Char CType+Mult
c int16_t * 100
C uint16_t * 100
e int32_t * 100
E uint32_t * 100

Units

All units here should be base units. This means battery capacity uses "amp * second" not "milliAmp * hours". Please keep the names consistent with Tools/autotest/param_metadata/param.py:33

Char Unit Abbrev. Description Notes
'-' "" no units e.g. Pi or a string
'?' "UNKNOWN" Units which haven't been worked out yet....
'A' "A" Ampere
'd' "deg" of the angular variety -180 to 180
'b' "B" bytes
'k' "deg/s" degrees per second Not an SI unit, but in some situations more user-friendly than radians per second
'D' "deglatitude" degrees of latitude
'e' "deg/s/s" degrees per second per second Not an SI unit, but in some situations more user-friendly than radians per second^2
'E' "rad/s" radians per second
'G' "Gauss" Gauss Not an SI unit, but 1 tesla = 10000 gauss so a simple replacement is not possible here
'h' "degheading" 0.? to 359.?
'i' "A.s" Ampere second
'J' "W.s" Joule (Watt second)
'l' "l" litres
'L' "rad/s/s" radians per second per second
'm' "m" metres
'n' "m/s" metres per second
'N' "N" Newton
'o' "m/s/s" metres per second per second
'O' "degC" degrees Celsius Not an SI unit, but Kelvin is too cumbersome for most users
'%' "%" percent
'S' "satellites" number of satellites
's' "s" seconds
'q' "rpm" revolutions per minute Not an SI unit, but sometimes more intuitive than Hertz
'r' "rad" radians
'U' "deglongitude" degrees of longitude
'u' "ppm" pulses per minute
'v' "V" Volt
'P' "Pa" Pascal
'w' "Ohm" Ohm
'W' "W" watt
'X' "W.h" watt hour
'Y' "us" pulse width modulation in microseconds
'z' "Hz" Hertz
'#' "instance" (e.g.)Sensor instance number

Multipliers

This multiplier information applies to the raw value present in the log. Any adjustment implied by the format field (e.g. the "centi" in "centidegrees" is IGNORED for the purposes of scaling. Essentially "format" simply tells you the C-type, and format-type h (int16_t) is equivalent to format-type c (int16_t*100) tl;dr a GCS shouldn't/mustn't infer any scaling from the unit name

Char Multiplier Description
'-' 0 no multiplier e.g. char[4]
'?' 1 multipliers which haven't been worked out yet
'2' 1e2
'1' 1e1
'0' 1e0 x1
'A' 1e-1
'B' 1e-2
'C' 1e-3
'D' 1e-4
'E' 1e-5
'F' 1e-6
'G' 1e-7
'I' 1e-9
'!' 3.6 (milliampere * hour => ampere * second) and (km/h => m/s)
'/' 3600 (ampere * hour => ampere * second)