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7 commits

Author SHA1 Message Date
Thomas Renger 34c5188bd1 Bump bot version to 0.2
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ci/woodpecker/push/docker Pipeline was successful
2024-11-01 16:36:13 +01:00
Thomas Renger c4c9b226ac Make MASTODON_URL configurable 2024-11-01 16:35:53 +01:00
Thomas Renger c70159e31b Fix timezone handling, don’t display timedelta during full moon 2024-11-01 16:29:18 +01:00
Thomas Renger 8acc8a0af8 Add pytz (python timezone module) 2024-11-01 16:27:17 +01:00
Thomas Renger 510a56c16b Add (basic) editorconfig 2024-11-01 16:26:46 +01:00
Thomas Renger 5ae27d6000 Rafactor (rename part 2) 2024-11-01 12:01:47 +01:00
Thomas Renger f0cab8794c Refactoring (renaming) 2024-11-01 12:00:09 +01:00
9 changed files with 80 additions and 372 deletions

12
.editorconfig Normal file
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@ -0,0 +1,12 @@
# EditorConfig is awesome: https://EditorConfig.org
# top-most EditorConfig file
root = true
[*]
indent_style = space
indent_size = 4
end_of_line = lf
charset = utf-8
trim_trailing_whitespace = false
insert_final_newline = false

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@ -11,7 +11,7 @@ steps:
repo: dentaku/vollmond-bot repo: dentaku/vollmond-bot
tags: tags:
- latest - latest
- v0.1 - v0.2
auto-tag: true auto-tag: true
platforms: [linux/amd64, linux/arm64] platforms: [linux/amd64, linux/arm64]
when: when:

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@ -6,4 +6,4 @@ RUN pip install --no-cache-dir -r requirements.txt
COPY . . COPY . .
CMD [ "python", "./testbot.py" ] CMD [ "python", "./bot.py" ]

23
bot/bot.py Normal file
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@ -0,0 +1,23 @@
import os
import moon
from mastodon import Mastodon
from pytz import timezone
from datetime import datetime
# Set up Mastodon
mastodon = Mastodon(
access_token = 'token.secret',
api_base_url = os.getenv('MASTODON_URL', 'https://mastodon.wazongtest.de/')
)
tz = timezone('Europe/Berlin')
now = datetime.now().astimezone(tz)
moon_text="Aktuelle Mondphase:\n"
moon_text+=moon.moon_phase_as_text(now)
print(moon_text)
mastodon.status_post(moon_text, visibility='unlisted')
me = mastodon.me()
print(mastodon.account_statuses(me['id'])[0])

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@ -1,269 +0,0 @@
<?
// Formel nach http://www.die-seite.eu/wm-mondphasen.php
$ursprung = mktime(19,19,54,02,22,2016);
$akt_date = time(); //mktime(18,19,54,04,24,2016);//
define('ZYCLUS', floor(29.530588861 * 86400));
$mondphase = round(((($akt_date - $ursprung) / ZYCLUS) - floor(($akt_date - $ursprung) / ZYCLUS)) * 100, 0);
function rescale($ab, $cd) //--Funktion zum anpassen der Mondphase 0-100 an Bildnummer 001-362 (Bilder der Seite http://www.avgoe.de)
{
list($a1,$b1) = $ab;
list($c1,$d1) = $cd;
if($a1 == $b1)
{
trigger_error("Invalid scale",E_USER_WARNING);
return false;
}
$o = ($b1*$c1-$a1*$d1)/($b1-$a1);
$s = ($d1-$c1)/($b1-$a1);
return function($x)use($o,$s)
{
return $s*$x+$o;
};
}
if ($mondphase <= 1 || $mondphase >= 99 ){ //--Vollmond
$phase_text = 'Vollmond';
if($mondphase>=99){
$pic = rescale([99,100],[172,177]);} // ([Mondphasen von,bis],[Bildnummern von,bis])
else{
$pic = rescale([0,1],[178,182]);}
$pic_n = floor($pic($mondphase));
if($pic_n<10){
$pic_n = "00".$pic_n;}
elseif($pic_n<100){
$pic_n = "0".$pic_n;}
else{$pic_n = $pic_n;}
$path = '<IMG src="/user/mond/mond_'.$pic_n.'.gif">';
setvalue(32646 /*[Wetterdaten\Astronomische Daten\Mondansicht]*/, $path);
}
elseif ($mondphase > 1 && $mondphase < 49){ //--abnehmender Mond
$phase_text = 'abnehmender Mond';
$pic = rescale([2,48],[183,352]);
$pic_n = floor($pic($mondphase));
if($pic_n<10){
$pic_n = "00".$pic_n;}
elseif($pic_n<100){
$pic_n = "0".$pic_n;}
else{$pic_n = $pic_n;}
$path = '<IMG src="/user/mond/mond_'.$pic_n.'.gif">';
setvalue(32646 /*[Wetterdaten\Astronomische Daten\Mondansicht]*/, $path);
}
elseif ($mondphase >= 49 && $mondphase <= 51){ //--Neumond
$phase_text = 'Neumond';
$pic = rescale([49,51],[353,362]);
$pic_n = floor($pic($mondphase));
if($pic_n<10){
$pic_n = "00".$pic_n;}
elseif($pic_n<100){
$pic_n = "0".$pic_n;}
else{$pic_n = $pic_n;}
$path = '<IMG src="/user/mond/mond_'.$pic_n.'.gif">';
setvalue(32646 /*[Wetterdaten\Astronomische Daten\Mondansicht]*/, $path);
}
else{ //--zunehmender Mond
$phase_text = 'zunehmender Mond';
$pic = rescale([52,98],[008,171]);
$pic_n = floor($pic($mondphase));
if($pic_n<10){
$pic_n = "00".$pic_n;}
elseif($pic_n<100){
$pic_n = "0".$pic_n;}
else{$pic_n = $pic_n;}
$path = '<IMG src="/user/mond/mond_'.$pic_n.'.gif">';
setvalue(32646 /*[Wetterdaten\Astronomische Daten\Mondansicht]*/, $path);
}
//------------------------------------------------------------------------------
// ============================================================
//
// Phasen: phase = 0 für Neumond
// phase = 0.25 für erstes Viertel
// phase = 0.5 für Vollmond
// phase = 0.75 für letztes Viertel
// Für Werte anders als 0, 0.25, 0.5 oder 0.75 ist nachstehendes Script ungültig.
// Angabe des Zeitpunktes als Fließkomma-Jahreszahl
// Bsp.: 1.8.2006 = ca. 2006.581
//
// Ergebnis: $JDE
// ============================================================
// aktuelles Datum in Jahre umrechnen
$year = ((((((date("s") / 60)+ date("i")) / 60)+date("G")) / 24) + date("z") - 1) / (365 + (date("L"))) + date("Y");
//print_r(date("z"));
$rads = 3.14159265359/180;
$table = "";
$name = "";
for ($phase = 0; $phase < 1; $phase += 0.25){
// Anzahl der Mondphasen seit 2000
$k = floor(($year-2000)*12.36853087)+$phase;
// Mittlerer JDE Wert des Ereignisses
$JDE = 2451550.09766+29.530588861*$k;
// Relevante Winkelwerte in [Radiant]
$M = (2.5534+29.10535670*$k)*$rads;
$Ms = (201.5643+385.81693528*$k)*$rads;
$F = (160.7108+390.67050284*$k)*$rads;
if ($phase == 0){
// Korrekturterme JDE für Neumond
$JDE += -0.40720*Sin($Ms);
$JDE += 0.17241*Sin($M);
$JDE += 0.01608*Sin(2*$Ms);
$JDE += 0.01039*Sin(2*$F);
$JDE += 0.00739*Sin($Ms-$M);
$JDE += -0.00514*Sin($Ms+$M);
$JDE += 0.00208*Sin(2*$M);
$JDE += -0.00111*Sin($Ms-2*$F);
}
elseif ($phase == 0.5) {
// Korrekturterme JDE für Vollmond
$JDE += -0.40614*Sin($Ms);
$JDE += 0.17302*Sin($M);
$JDE += 0.01614*Sin(2*$Ms);
$JDE += 0.01043*Sin(2*$F);
$JDE += 0.00734*Sin($Ms-$M);
$JDE += -0.00515*Sin($Ms+$M);
$JDE += 0.00209*Sin(2*$M);
$JDE += -0.00111*Sin($Ms-2*$F);
}
if ($phase == 0.25 || $phase == 0.75){
// Korrekturterme für JDE für das 1. bzw. letzte Viertel
$JDE += -0.62801*Sin($Ms);
$JDE += 0.17172*Sin($M);
$JDE += -0.01183*Sin($Ms+$M);
$JDE += 0.00862*Sin(2*$Ms);
$JDE += 0.00804*Sin(2*$F);
$JDE += 0.00454*Sin($Ms-$M);
$JDE += 0.00204*Sin(2*$M);
$JDE += -0.00180*Sin($Ms-2*$F);
// Weiterer Korrekturterm für Viertelphasen
if ($phase == 0.25){
$JDE += 0.00306;
} else {
$JDE += -0.00306;
}
}
// Konvertierung von Julianischem Datum auf Gregorianisches Datum
$z = floor($JDE + 0.5);
$f = ($JDE + 0.5) - floor($JDE + 0.5);
if ($z < 2299161){
$a = $z;
}
else {
$g = floor(($z - 1867216.25) / 36524.25);
$a = $z + 1 + $g - floor($g / 4);
}
$b = $a + 1524;
$c = floor(($b - 122.1) / 365.25);
$d = floor(365.25 * $c);
$e = floor(($b - $d) / 30.6001);
$tag_temp = $b - $d - floor(30.6001 * $e) + $f; //Tag incl. Tagesbruchteilen
$stunde_temp = ($tag_temp - floor($tag_temp)) * 24;
$minute_temp = ($stunde_temp - floor($stunde_temp)) * 60;
$stunde = floor($stunde_temp);
$minute = floor($minute_temp);
$sekunde = round(($minute_temp - floor($minute_temp)) * 60);
$tag = floor($tag_temp);
if ($e < 14) {
$monat = $e -1;
}
else {
$monat = $e - 13;
}
if ($monat > 2) {
$jahr = $c - 4716;
}
else {
$jahr = $c - 4715;
}
$sommerzeit = date("I");
if($sommerzeit == 0){
$datum = mktime($stunde,$minute,$sekunde+3600,$monat,$tag,$jahr);
}
else{
$datum = mktime($stunde,$minute,$sekunde+7200,$monat,$tag,$jahr);
}
switch ($phase){
case 0:
$ausgabe = 'Neumond';
break;
case 0.25:
$ausgabe = 'erstes Viertel';
break;
case 0.5:
$ausgabe = 'Vollmond';
break;
case 0.75:
$ausgabe = 'letztes Viertel';
break;
}
$date = date("D",($datum));
if($date == "Mon"){
$wt = "Mo";}
elseif ($date == "Tue"){
$wt = "Di";}
elseif ($date == "Wed"){
$wt = "Mi";}
elseif ($date == "Thu"){
$wt = "Do";}
elseif ($date == "Fri"){
$wt = "Fr";}
elseif ($date == "Sat"){
$wt = "Sa";}
elseif ($date == "Sun"){
$wt = "So";}
$table .= ($wt.", ".date("d.m.Y H:i",($datum)).";");
$name .= ($ausgabe.";");
}
setvalue(18785 /*[Wetterdaten\Astronomische Daten\Mondphase]*/,$phase_text." - ".$mondphase."%");
$var = explode(";",$table);
$var_name = explode(";",$name);
IPS_SetName(11478 /*[Wetterdaten\Astronomische Daten\Neumond]*/, $var_name[0]);
IPS_SetName(52027 /*[Wetterdaten\Astronomische Daten\erstes Viertel]*/, $var_name[1]);
IPS_SetName(53514 /*[Wetterdaten\Astronomische Daten\Vollmond]*/, $var_name[2]);
IPS_SetName(41504 /*[Wetterdaten\Astronomische Daten\letztes Viertel]*/, $var_name[3]);
setvalue(11478 /*[Wetterdaten\Astronomische Daten\Neumond]*/, $var[0]);
setvalue(52027 /*[Wetterdaten\Astronomische Daten\erstes Viertel]*/, $var[1]);
setvalue(53514 /*[Wetterdaten\Astronomische Daten\Vollmond]*/, $var[2]);
setvalue(41504 /*[Wetterdaten\Astronomische Daten\letztes Viertel]*/, $var[3]);
//------------------------------------------------------------------------------
// Berechnung der Mondauf/untergangs Zeiten
$month = date("m");
$day = date("d");
$year = date("Y");
include "55184.ips.php"; // Aufruf Moon Rise/Set Script
$data = (Moon::calculateMoonTimes($month, $day, $year, (getvalue(29795 /*[Scripte\Sonnenauf/untergang\Breitengrad (x1000000)]*/)/1000000), (getvalue(31634 /*[Scripte\Sonnenauf/untergang\Längengrad (x1000000)]*/)/1000000)));
$rise = $data->{'moonrise'}; //Aufgang
$set = $data->{'moonset'}; //Untergang
setvalue(55563 /*[Wetterdaten\Astronomische Daten\Mondaufgang]*/,date("H:i",$rise));
setvalue(31319 /*[Wetterdaten\Astronomische Daten\Monduntergang]*/,date("H:i",$set));
?>

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@ -1,14 +1,16 @@
import datetime
import math import math
from pytz import timezone
from datetime import datetime
from datetime import timedelta
def next_full_moon(start): def next_full_moon(start):
# y2k = datetime.datetime(2000, 1, 1) # date of the known full moon
y2k = datetime.datetime(1999, 12, 22, 18, 31, 18) y2k = datetime(1999, 12, 22, 18, 31, 18).astimezone(timezone('Europe/Berlin'))
since2000 = (start - y2k) / datetime.timedelta(days=365.25) since2000 = (start - y2k) / timedelta(days=365.25)
rads = 3.14159265359/180 rads = 3.14159265359/180
phase=0.5 # 0.5 equals full moon phase = 0.5 # 0.5 equals full moon
# Anzahl der Mondphasen seit 2000 # Anzahl der Mondphasen seit 2000
k = math.floor((since2000)*12.36853087)+phase k = math.floor((since2000)*12.36853087)+phase
@ -63,28 +65,37 @@ def next_full_moon(start):
else: else:
jahr = c - 4715 jahr = c - 4715
return datetime.datetime(jahr, monat, tag, stunde, minute, sekunde) fmutc = datetime(jahr, monat, tag, stunde, minute, sekunde, tzinfo=timezone('UTC'))
return fmutc.astimezone(start.tzinfo)
def moon_phase_as_text(mday): def is_full_moon(mday: datetime):
nmoon = next_full_moon(mday) nmoon = next_full_moon(mday)
till_next_full=nmoon-mday till_next_full=nmoon-mday
if (till_next_full < datetime.timedelta(days=1)): if (till_next_full < timedelta(days=1) or till_next_full < timedelta(days=28)):
return True
return False
def moon_phase_as_text(mday: datetime):
nmoon = next_full_moon(mday)
till_next_full = nmoon - mday
till_next_full_text = strfdelta(till_next_full, "{days} Tage {hours} Stunden bis Vollmond")
if (till_next_full < timedelta(days=1)):
return("🌕 Vollmond") return("🌕 Vollmond")
if (till_next_full < datetime.timedelta(days=6)): if (till_next_full < timedelta(days=6)):
return("🌔 Zunehmender Dreiviertelmond") return("🌔 Zunehmender Dreiviertelmond\n" + till_next_full_text)
if (till_next_full < datetime.timedelta(days=10)): if (till_next_full < timedelta(days=10)):
return("🌓 Zunehmender Halbmond") return("🌓 Zunehmender Halbmond\n" + till_next_full_text)
if (till_next_full < datetime.timedelta(days=14)): if (till_next_full < timedelta(days=14)):
return("🌒 Zunehmender Sichelmond") return("🌒 Zunehmender Sichelmond\n" + till_next_full_text)
if (till_next_full < datetime.timedelta(days=16)): if (till_next_full < timedelta(days=16)):
return("🌑 Neumond") return("🌑 Neumond\n" + till_next_full_text)
if (till_next_full < datetime.timedelta(days=20)): if (till_next_full < timedelta(days=20)):
return("🌘 Abnehmender Sichelmond") return("🌘 Abnehmender Sichelmond\n" + till_next_full_text)
if (till_next_full < datetime.timedelta(days=24)): if (till_next_full < timedelta(days=24)):
return("🌗 Abnehmender Halbmond") return("🌗 Abnehmender Halbmond\n" + till_next_full_text)
if (till_next_full < datetime.timedelta(days=28)): if (till_next_full < timedelta(days=28.5)):
return("🌖 Abnehmender Dreiviertelmond") return("🌖 Abnehmender Dreiviertelmond\n" + till_next_full_text)
return("🌕 Vollmond") return("🌕 Vollmond")
def strfdelta(tdelta, fmt): def strfdelta(tdelta, fmt):

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@ -1 +1,2 @@
Mastodon.py Mastodon.py
pytz

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@ -1,26 +0,0 @@
import datetime
import testmoon2
from mastodon import Mastodon
# Set up Mastodon
mastodon = Mastodon(
access_token = 'testtoken.secret',
# api_base_url = 'https://fnordon.de/'
api_base_url = 'https://mastodon.wazongtest.de/'
)
now = datetime.datetime.now()
moon_text="Aktuelle Mondphase:\n"
moon_text+=testmoon2.moon_phase_as_text(now)
moon_text+="\n"
moon_text+=testmoon2.till_next_full_as_text(now)
print(moon_text)
mastodon.status_post(moon_text)
me = mastodon.me()
print(me['id'])
print(mastodon.account_statuses(me['id'])[0])

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@ -1,44 +0,0 @@
from astral.moon import phase
from mastodon import Mastodon
import datetime
# Set up Mastodon
mastodon = Mastodon(
access_token = 'testtoken.secret',
# api_base_url = 'https://fnordon.de/'
api_base_url = 'https://mastodon.wazongtest.de/'
)
now = datetime.datetime.now()
moon_today = phase(now)
until_full = 14.00 - moon_today
print("until_full", end=": ")
print(until_full)
if (until_full<0):
until_full+=29.53
print("corrected", end=": ")
print(until_full)
moon_yesterday = phase(now - datetime.timedelta(days=1))
moon_tomorrow = phase(now + datetime.timedelta(days=1))
next_full = now + datetime.timedelta(days=(until_full*1.055))
moon_text = "Next full moon " + format(next_full.isoformat())
# mastodon.status_post(moon_text)
print("Heute", end=": ")
print(now)
print("Mext full", end=": ")
print(next_full)
print("Mond gestern", end=": ")
print(moon_yesterday)
print("Mond heute", end=": ")
print(moon_today)
print("bis Vollmond", end=": ")
print(until_full)
print("Mond morgen", end=": ")
print(moon_tomorrow)