Tasmota/scripter.md

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**Script Language for Tasmota**
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As an alternative to rules. (about 17k flash size, variable ram size)
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In submenu Configuration =\> edit script
1535 bytes max script size (uses rules buffer)
to enable:
\#define USE_SCRIPT
\#undef USE_RULES
Up to 50 variables (45 numeric and 5 strings, maybe changed by #define)
Freely definable variable names (all names are intentionally case sensitive)
Nested if,then,else up to a level of 8
Math operators **+,-,\*,/,%,&,|,^**
all operators may be used in the op= form e.g. **+=**
Left right evaluation with optional brackets
all numbers are float
e.g. temp=hum\*(100/37.5)+temp-(timer\*hum%10)
no spaces allowed between math operations
Comparison operators **==,!=,\>,\>=,<,<=**
**and** , **or** support
strings support **+** and **+=** operators
string comparison **==,!=**
max string size = 19 chars (default, can be increased or decreased by optional >D parameter)
**Comments** start with **;**
**Sections** defined:
>**\>D ssize**
ssize = optional max stringsize (default=19)
define and init variables here, must be the first section, no other code allowed
**p:**vname specifies permanent vars (the number of permanent vars is limited by tasmota rules space (50 bytes)
numeric var=4 bytes, string var=lenght of string+1)
**t:**vname specifies countdown timers, if >0 they are decremented in seconds until zero is reached. see example below
**i:**vname specifies auto increment counters if >=0 (in seconds)
**m:**vname specifies a median filter variable with 5 entries (for elimination of outliers)
**M:**vname specifies a moving average filter variable with 8 entries (for smoothing data)
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(max 5 filters in total m+M) optional another filter lenght (1..127) can be given after the definition.
filter vars can be accessed also in indexed mode vname[x] (index = 1...N, index 0 returns current array index pointer)
by this filter vars can be used as arrays
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>all variable names length taken together may not exceed 256 characters, so keep variable names as short as possible.
memory is dynamically allocated as a result of the D section.
copying a string to a number or reverse is supported
>**\>B**
executed on BOOT time
>**\>T**
executed on teleperiod time (**SENSOR** and **STATE**), get tele vars only in this section
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remark: json variable names (like all others) may not contain math operators like - , you should set setoption64 1 to replace - with underscore
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>**\>F**
executed every 100 ms
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>**\>S**
executed every second
>**\>E**
executed e.g. on power change and mqtt **RESULT**
>**\>R**
executed on restart, p vars are saved automatically after this call
special variables (read only):
>**upsecs** = seconds since start
**uptime** = minutes since start
**time** = minutes since midnight
**sunrise** = sunrise minutes since midnight
**sunset** = sunset minutes since midnight
**tper** = teleperiod (may be set also)
**tstamp** = timestamp (local date and time)
**topic** = mqtt topic
**gtopic** = mqtt group topic
**prefixn** = prefix n = 1-3
**pwr[x]** = tasmota power state (x = 1-N)
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**pc[x]** = tasmota pulse counter value (x = 1-4)
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**tbut[x]** = touch screen button state (x = 1-N)
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**sw[x]** = tasmota switch state (x = 1-N)
>**pin[x]** = gpio pin level (x = 0-16)
**pn[x]** = pin number for sensor code x, 99 if none
**pd[x]** = defined sensor for gpio pin nr x none=999
**gtmp** = global temperature
**ghum** = global humidity
**gprs** = global pressure
**pow(x y)** = calculates the power of x^y
**med(n x)** = calculates a 5 value median filter of x (2 filters possible n=0,1)
**int(x)** = gets the integer part of x (like floor)
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**hn(x)** = converts x (0..255) to a hex nibble string
**st(svar c n)** = stringtoken gets the n th substring of svar separated by c
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**s(x)** = explicit conversion from number x to string
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**mqtts** = state of mqtt disconnected=0, connected>0
**wifis** = state of wifi disconnected=0, connected>0
>**hours** = hours
**mins** = mins
**secs** = seconds
**day** = day of month
**wday** = day of week
**month** = month
**year** = year
these variables are cleared after reading true
>**chg[var]** = true if a variables value was changed (numeric vars only)
**upd[var]** = true if a variable was updated
**boot** = true on BOOT
**tinit** = true on time init
**tset** = true on time set
**mqttc** = true on mqtt connect
**mqttd** = true on mqtt disconnect
**wific** = true on wifi connect
**wifid** = true on wifi disconnect
system vars (for debugging)
>**stack** = stack size
**heap** = heap size
**ram** = used ram size
**slen** = script length
**micros** = running microseconds
**millis** = running milliseconds
**loglvl** = loglevel of script cmds, may be set also
remarks:
if you define a variable with the same name as a special
variable that special variable is discarded
**Tasmota** cmds start with **=\>**
within cmds you can replace text with variables with **%varname%**
a single percent sign must be given as **%%**
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**->** is equivalent but doesnt send mqtt or any weblog (silent execute, usefull to reduce traffic)
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**special** cmds:
>**=\> print** prints to info log for debugging
to save code space nearly no error messages are provided. However it is taken care of that at least it should not crash on syntax errors.
if a variable does not exist a **???** is given on commands
if a **SENSOR** or **STATUS** or **RESULT** message or a var does not exist the destination variable is NOT updated.
2 possibilities for conditionals:
>**if** a==b
**and** x==y
**or** k==i
**then** => do this
**else** => do that
**endif**
OR
>**if** a==b
**and** x==y
**or** k==i **{**
=> do this
**} else {**
=> do that
**}**
you may NOT mix both methods
also possible e.g.
>if var1-var2==var3*var4
then
remarks:
the last closing bracket must be on a single line
the condition may not be enclosed in brackets
>**break** exits a section or terminates a for next loop
**dpx** sets decimal precision to x (0-9)
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**svars** save permanent vars
**delay(x)** pauses x milliseconds (should be as short as possible)
**spin(x m)** set gpio pin x (0-16) to value m (0,1) only the last bit is used, so even values set the pin to zero and uneven values set the pin to 1
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**spinm(x m)** set pin mode gpio pin x (0-16) to mode m (input=0,output=1,input with pullup=2)
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>**#name** names a subroutine, subroutines are called with **=#name**
**#name(param)** names a subroutines with a parameter is called with **=#name(param)**
subroutines end with the next '#' or '>' line or break, may be nested
params can be numbers or strings and on mismatch are converted
>**for var from to inc**
**next**
specifies a for next loop, (loop count must not be less then 1)
>**switch x**
**case a**
**case b**
**ends**
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specifies a switch case selector (numeric or string)
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**sd card support**
enable by CARD_CS = gpio pin of card chip select (+ 10k flash)
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\#define USE_SCRIPT_FATFS CARD_CS
sd card uses standard hardware spi gpios: mosi,miso,sclk
max 4 files open at a time
allows for e.g. logging sensors to a tab delimited file and then download (see example below)
the download of files may be executed in a kind of "multitasking" when bit 7 of loglvl is set (128+loglevel)
without multitasking 150kb/s (all processes are stopped during download), with multitasking 50kb/s (other tasmota processes are running)
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script itself is also stored on sdcard with a default size of 4096 chars
enable sd card directory support (+ 1,2k flash)
\#define SDCARD_DIR
shows a web sdcard directory (submeu of scripter) where you can
upload and download files to/from sd card
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>**fr=fo("fname" m)** open file fname, mode 0=read, 1=write (returns file reference (0-3) or -1 for error)
**res=fw("text" fr)** writes text to (the end of) file fr, returns number of bytes written
**res=fr(svar fr)** reads a string into svar, returns bytes read (string is read until delimiter \t \n \r or eof)
**fc(fr)** close file
**ff(fr)** flush file, writes cached data and updates directory
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**fd("fname")** delete file fname
**flx(fname)** create download link for file (x=1 or 2) fname = file name of file to download
**fsm** return 1 if filesystem is mounted, (valid sd card found)
extended commands (+0,9k flash)
\#define USE_SCRIPT_FATFS_EXT
>**fmd("fname")** make directory fname
>**frd("fname")** remove directory fname
>**fx("fname")** check if file fname exists
>**fe("fname")** execute script fname (max 2048 bytes, script file must start with '>' char on the 1. line)
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**konsole script cmds**
>**script 1 or 0** switch script on or off
**script >cmdline** executes the script cmdline
can be used e.g. to set variables e.g. **script >mintmp=15**
more then one line may be executed seperated by a semicolon e.g. **script >mintmp=15;maxtemp=40**
script itself cant be set because the size would not fit the mqtt buffers
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**subscribe,unsubscribe**
>if \#defined SUPPORT_MQTT_EVENT command subscribe and unsubscribe are supported. in contrast to rules no event is generated but the event name specifies a variable defined in D section and this variable is automatically set on transmission of the subscribed item
**summary of optional defines**
>\#define USE_SCRIPT_FATFS CS_PIN : enables SD card support (on spi bus) also enables 4k script buffer
\#define USE_SCRIPT_FATFS_EXT : enables additional FS commands
\#define SDCARD_DIR : enables support for WEBUI for SD card directory up and download
\#define USE_24C256 : enables use of 24C256 i2c eeprom to expand script buffer (defaults to 4k)
\#define SUPPORT_MQTT_EVENT : enables support for subscribe unsubscribe
\#define USE_TOUCH_BUTTONS : enable virtual touch button support with touch displays
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***example script***
meant to show some of the possibilities
(actually this code ist too large)
**\>D**
; define all vars here
p:mintmp=10 (p:means permanent)
p:maxtmp=30
t:timer1=30 (t:means countdown timer)
t:mt=0
i:count=0 (i:means auto counter)
hello=&quot;hello world&quot;
string=&quot;xxx&quot;
url=&quot;[192.168.178.86]&quot;
hum=0
temp=0
timer=0
dimmer=0
sw=0
rssi=0
param=0
col=&quot;&quot;
ocol=&quot;&quot;
chan1=0
chan2=0
chan3=0
ahum=0
atemp=0
tcnt=0
hour=0
state=1
m:med5=0
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M:movav=0
; define array with 10 entries
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m:array=0 10
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**\>B**
string=hello+"how are you?"
=\>print BOOT executed
=\>print %hello%
=\>mp3track 1
; list gpio pin definitions
for cnt 0 16 1
tmp=pd[cnt]
=>print %cnt% = %tmp%
next
; get gpio pin for relais 1
tmp=pn[21]
=>print relais 1 is on pin %tmp%
; pulse relais over raw gpio
spin(tmp 1)
delay(100)
spin(tmp 0)
; raw pin level
=>print level of gpio1 %pin[1]%
; pulse over tasmota cmd
=>power 1
delay(100)
=>power 0
**\>T**
hum=BME280#Humidity
temp=BME280#Temperature
rssi=Wifi#RSSI
string=SleepMode
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; add to median filter
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median=temp
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; add to moving average filter
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movav=hum
; show filtered results
=>print %median% %movav%
if chg[rssi]>0
then =>print rssi changed to %rssi%
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endif
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if temp\>30
and hum\>70
then =\>print damn hot!
endif
**\>S**
; every second but not completely reliable time here
; use upsecs and uptime or best t: for reliable timers
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; arrays
array[1]=4
array[2]=5
tmp=array[1]+array[2]
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; call subrountines with parameters
=#sub1("hallo")
=#sub2(999)
; stop timer after expired
if timer1==0
then timer1=-1
=>print timer1 expired
endif
; auto counter with restart
if count>=10
then =>print 10 seconds over
count=0
endif
if upsecs%5==0
then =\>print %upsecs% (every 5 seconds)
endif
; not recommended for reliable timers
timer+=1
if timer\>=5
then =\>print 5 seconds over (may be)
timer=0
endif
dimmer+=1
if dimmer\>100
then dimmer=0
endif
=\>dimmer %dimmer%
=\>WebSend %url% dimmer %dimmer%
; show on display
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dp0
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=\>displaytext [c1l1f1s2p20] dimmer=%dimmer%
=\>print %upsecs% %uptime% %time% %sunrise% %sunset% %tstamp%
if time\>sunset
and time< sunrise
then
; night time
if pwr[1]==0
then =\>power1 1
endif
else
; day time
if pwr[1]\>0
then =\>power1 0
endif
endif
; clr display on boot
if boot\>0
then =\>displaytext [z]
endif
; frost warning
if temp<0
and mt<=0
then =#sendmail("frost alert")
; alarm only every 5 minutes
mt=300
=>mp3track 2
endif
; var has been updated
if upd[hello]>0
then =>print %hello%
endif
; send to Thingspeak every 60 seconds
; average data in between
if upsecs%60==0
then
ahum/=tcnt
atemp/=tcnt
=>Websend [184.106.153.149:80]/update?key=PYUZMVWCICBW492&field1=%atemp%&field2=%ahum%
tcnt=0
atemp=0
ahum=0
else
ahum+=hum
atemp+=temp
tcnt+=1
endif
hour=int(time/60)
if chg[hour]>0
then
; exactly every hour
=>print full hour reached
endif
if time>5 {
=>print more then 5 minutes after midnight
} else {
=>print less then 5 minutes after midnight
}
; publish abs hum every teleperiod time
if mqtts>0
and upsecs%tper==0
then
; calc abs humidity
tmp=pow(2.718281828 (17.67\*temp)/(temp+243.5))
tmp=(6.112\*tmp\*hum\*18.01534)/((273.15+temp)\*8.31447215)
; publish median filtered value
=>Publish tele/%topic%/SENSOR {"Script":{"abshum":%med(0 tmp)%}}
endif
;switch case state machine
switch state
case 1
=>print state=%state% , start
state+=1
case 2
=>print state=%state%
state+=1
case 3
=>print state=%state% , reset
state=1
ends
; subroutines
\#sub1(string)
=>print sub1: %string%
\#sub2(param)
=>print sub2: %param%
\#sendmail(string)
=>sendmail [smtp.gmail.com:465:user:passwd:<sender@gmail.de>:<rec@gmail.de>:alarm] %string%
**\>E**
=\>print event executed!
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; get HSBColor 1. component
tmp=st(HSBColor , 1)
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; check if switch changed state
sw=sw[1]
if chg[sw]>0
then =\>power1 %sw%
endif
hello=&quot;event occured&quot;
; check for Color change (Color is a string)
col=Color
; color change needs 2 string vars
if col!=ocol
then ocol=col
=>print color changed %col%
endif
; or check change of color channels
chan1=Channel[1]
chan2=Channel[2]
chan3=Channel[3]
if chg[chan1]>0
or chg[chan2]>0
or chg[chan3]>0
then => color has changed
endif
; compose color string for red
col=hn(255)+hn(0)+hn(0)
=>color %col%
**\>R**
=\>print restarting now
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**a log sensor example**
; define all vars here
; reserve large strings
**\>D** 48
hum=0
temp=0
fr=0
res=0
; moving average for 60 seconds
M:mhum=0 60
M:mtemp=0 60
str=""
**\>B**
; set sensor file download link
fl1("slog.txt")
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; delete file in case we want to start fresh
;fd("slog.txt")
; list all files in root directory
fr=fo("/" 0)
for cnt 1 20 1
res=fr(str fr)
if res>0
then
=>print %cnt% : %str%
else
break
endif
next
fc(fr)
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**\>T**
; get sensor values
temp=BME280#Temperature
hum=BME280#Humidity
**\>S**
; average sensor values every second
mhum=hum
mtemp=temp
; write average to sensor log every minute
if upsecs%60==0
then
; open file for write
fr=fo("slog.txt" 1)
; compose string for tab delimited file entry
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str=s(upsecs)+"\t"+s(mhum)+"\t"+s(mtemp)+"\n"
; write string to log file
res=fw(str fr)
; close file
fc(fr)
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endif
**\>R**
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**a real example**
epaper 29 with sgp30 and bme280
some vars are set from iobroker
DisplayText substituted to save script space
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**\>D**
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hum=0
temp=0
press=0
ahum=0
tvoc=0
eco2=0
zwz=0
wr1=0
wr2=0
wr3=0
otmp=0
pwl=0
tmp=0
DT="DisplayText"
; preset units in case they are not available
punit="hPa"
tunit="C"
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**\>B**
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;reset auto draw
=>%DT% [zD0]
;clr display and draw a frame
=>%DT% [x0y20h296x0y40h296]
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**\>T**
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; get tele vars
temp=BME280#Temperature
hum=BME280#Humidity
press=BME280#Pressure
tvoc=SGP30#TVOC
eco2=SGP30#eCO2
ahum=SGP30#aHumidity
tunit=TempUnit
punit=PressureUnit
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**\>S**
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// update display every teleperiod time
if upsecs%tper==0
then
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dp2
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=>%DT% [f1p7x0y5]%temp% %tunit%
=>%DT% [p5x70y5]%hum% %%[x250y5t]
=>%DT% [p11x140y5]%press% %punit%
=>%DT% [p10x30y25]TVOC: %tvoc% ppb
=>%DT% [p10x160y25]eCO2: %eco2% ppm
=>%DT% [p10c26l5]ahum: %ahum% g^m3
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dp0
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=>%DT% [p25c1l5]WR 1 (Dach) : %wr1% W
=>%DT% [p25c1l6]WR 2 (Garage): %-wr3% W
=>%DT% [p25c1l7]WR 3 (Garten): %-wr2% W
=>%DT% [p25c1l8]Aussentemperatur: %otmp% C
=>%DT% [x170y95r120:30f2p6x185y100] %pwl% %%
; now update screen
=>%DT% [d]
endif
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**\>E**
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**\>R**
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**another real example**
ILI 9488 color LCD Display shows various energy graphs
display switches on and off with proximity sensor
BMP280 and vl5310x
some vars are set from iobroker
**>D**
temp=0
press=0
zwz=0
wr1=0
wr2=0
wr3=0
otmp=0
pwl=0
tmp=0
dist=0
DT="DisplayText"
punit="hPa"
tunit="C"
hour=0
**>B**
=>%DT% [z]
// define 2 graphs, 2. has 3 tracks
=>%DT% [zCi1G2656:5:20:400:80:1440:-5000:5000:3Ci7f3x410y20]+5000 W[x410y95]-5000 W [Ci7f1x70y3] Zweirichtungsz~80hler - 24 Stunden
=>%DT% [Ci1G2657:5:120:400:80:1440:0:5000:3Ci7f3x410y120]+5000 W[x410y195]0 W [Ci7f1x70y103] Wechselrichter 1-3 - 24 Stunden
=>%DT% [Ci1G2658:5:120:400:80:1440:0:5000:16][Ci1G2659:5:120:400:80:1440:0:5000:5]
=>%DT% [f1s1b0:260:260:100:50:2:11:4:2:Rel 1:b1:370:260:100:50:2:11:4:2:Dsp off:]
=>mp3volume 100
=>mp3track 4
**>T**
; get some tele vars
temp=BMP280#Temperature
press=BMP280#Pressure
tunit=TempUnit
punit=PressureUnit
dist=VL53L0X#Distance
; check proximity sensor to switch display on/off
; to prevent burn in
if dist>300
then
if pwr[2]>0
then
=>power2 0
endif
else
if pwr[2]==0
then
=>power2 1
endif
endif
**>S**
; update graph every teleperiod
if upsecs%tper==0
then
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dp2
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=>%DT% [f1Ci3x40y260w30Ci1]
=>%DT% [Ci7x120y220t]
=>%DT% [Ci7x180y220T]
=>%DT% [Ci7p8x120y240]%temp% %tunit%
=>%DT% [Ci7x120y260]%press% %punit%
=>%DT% [Ci7x120y280]%dist% mm
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dp0
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=>%DT% [g0:%zwz%g1:%wr1%g2:%-wr2%g3:%-wr3%]
if zwz>0
then
=>%DT% [p-8x410y55Ci2Bi0]%zwz% W
else
=>%DT% [p-8x410y55Ci3Bi0]%zwz% W
endif
=>%DT% [p-8x410y140Ci3Bi0]%wr1% W
=>%DT% [p-8x410y155Ci16Bi0]%-wr2% W
=>%DT% [p-8x410y170Ci5Bi0]%-wr3% W
endif
; chime every full hour
hour=int(time/60)
if chg[hour]>0
then =>mp3track 4
endif
**>E**
**>R**