File:COVID-19-Pandemie - TK (Tokelau) - Tote (800px).svg
Original file (SVG file, nominally 800 × 450 pixels, file size: 445 KB)
Captions
Summary
[edit]DescriptionCOVID-19-Pandemie - TK (Tokelau) - Tote (800px).svg |
Deutsch: COVID-19-Pandemie - TK (Tokelau) - Tote (800px) |
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Date | laufende Aktualisierungen | ||
Source | Daten von der WHO - https://covid19.who.int/WHO-COVID-19-global-data.csv - durch Klicken auffindbar über https://covid19.who.int/table | ||
Author | Summer ... hier! | ||
SVG development InfoField | This COVID-19 chart was created with Gnuplot. This plot uses embedded text that can be easily translated using a text editor. | ||
Source code InfoField |
# input (Zeitformat und Separator definieren)
#
set timefmt "%Y-%m-%d"
set datafile separator ';'
# Variablen mit Statistikdaten setzen
# (every ::0 steht für 'ab erster Zeile' und kann weggelassen werden)
stats $WHO_data every ::0 usi 5 name "neuinf_einzelwerte" nooutput
stats $WHO_data every ::0 usi 6 name "neuinf_kumuliert" nooutput
stats $WHO_data every ::0 usi 7 name "tote_einzelwerte" nooutput
stats $WHO_data every ::0 usi 8 name "tote_kumuliert" nooutput
# Start und Ende ermitteln
stats $WHO_data every ::0 usi (strptime("%Y-%m-%d",strcol(1))) name "datum" nooutput
# label fuer Legende oben links mit den ermittelten Datumsintervall setzen
set label 'Daten vom '.strftime("%d.%m.%Y",datum_min) at graph 0.26, graph 0.94 right
set label 'bis '.strftime("%d.%m.%Y",datum_max) at graph 0.26, graph 0.85 right
##### Test #####
# Werte die per Configscript eingepatcht wurden:
my_graph1_ytics = 20
my_graph1_mytics = 4
my_graph2_ytics = 5
my_graph2_mytics = 5
my_grafik_type = 'Tote' # Kann den Wert 'Tote' o. 'Neuinfiektionen' annehmen
my_graph1_ylabel = 'Tote (kumuliert)'
my_graph2_ylabel = 'Tote'
my_output_basename = 'COVID-19-Pandemie_-_TK_(Tokelau)_-_Tote_(800px)'
# Die Maximalwerte für die obere und untere Grafik ermitteln.
# Dazu muessen wir ermitteln ob es sich um eine Grafik von Neuinfizierten
# oder Toten handelt.
if (my_grafik_type eq 'Tote' ) {
# wenn wir hier int() nehmen ist u.a. die Ausgabe via print einfacher
# weil real weniger einfach auszugeben ist.
my_graph1_max = int(tote_kumuliert_max)
my_graph2_max = int(tote_einzelwerte_max)
}
else {
my_graph1_max = int(neuinf_kumuliert_max)
my_graph2_max = int(neuinf_einzelwerte_max)
}
# Hier soll zukünftig ytics und mtics berechent werden
#
# my_graph2_ytics und my_graph2_mytics
#
if ( my_graph1_max <= 5000000*9 ) { my_graph1_ytics = 5000000; my_graph1_mytics = 5}
if ( my_graph1_max <= 2500000*9 ) { my_graph1_ytics = 2500000; my_graph1_mytics = 5}
#if ( my_graph1_max <= 2000000*9 ) { my_graph1_ytics = 2000000; my_graph1_mytics = 4}
if ( my_graph1_max <= 1000000*9 ) { my_graph1_ytics = 1000000; my_graph1_mytics = 5}
if ( my_graph1_max <= 500000*9 ) { my_graph1_ytics = 500000; my_graph1_mytics = 5}
if ( my_graph1_max <= 250000*9 ) { my_graph1_ytics = 250000; my_graph1_mytics = 5}
#if ( my_graph1_max <= 200000*9 ) { my_graph1_ytics = 200000; my_graph1_mytics = 4}
if ( my_graph1_max <= 100000*9 ) { my_graph1_ytics = 100000; my_graph1_mytics = 5}
if ( my_graph1_max <= 50000*9 ) { my_graph1_ytics = 50000; my_graph1_mytics = 5}
if ( my_graph1_max <= 25000*9 ) { my_graph1_ytics = 25000; my_graph1_mytics = 5}
#if ( my_graph1_max <= 20000*9 ) { my_graph1_ytics = 20000; my_graph1_mytics = 4}
if ( my_graph1_max <= 10000*9 ) { my_graph1_ytics = 10000; my_graph1_mytics = 5}
if ( my_graph1_max <= 5000*9 ) { my_graph1_ytics = 5000; my_graph1_mytics = 5}
if ( my_graph1_max <= 2500*9 ) { my_graph1_ytics = 2500; my_graph1_mytics = 5}
#if ( my_graph1_max <= 2000*9 ) { my_graph1_ytics = 2000; my_graph1_mytics = 4}
if ( my_graph1_max <= 1000*9 ) { my_graph1_ytics = 1000; my_graph1_mytics = 5}
if ( my_graph1_max <= 500*9 ) { my_graph1_ytics = 500; my_graph1_mytics = 5}
if ( my_graph1_max <= 250*9 ) { my_graph1_ytics = 250; my_graph1_mytics = 5}
#if ( my_graph1_max <= 200*9 ) { my_graph1_ytics = 200; my_graph1_mytics = 4}
if ( my_graph1_max <= 100*9 ) { my_graph1_ytics = 100; my_graph1_mytics = 5}
if ( my_graph1_max <= 50*9 ) { my_graph1_ytics = 50; my_graph1_mytics = 5}
if ( my_graph1_max <= 25*9 ) { my_graph1_ytics = 25; my_graph1_mytics = 5}
#if ( my_graph1_max <= 20*9 ) { my_graph1_ytics = 20; my_graph1_mytics = 4}
if ( my_graph1_max <= 10*9 ) { my_graph1_ytics = 10; my_graph1_mytics = 5}
#
#
# my_graph2_ytics und my_graph2_mytics
#
if ( my_graph2_max <= 500000*4 + 300000 ) { my_graph2_ytics = 500000; my_graph2_mytics = 5}
if ( my_graph2_max <= 250000*4 + 150000 ) { my_graph2_ytics = 250000; my_graph2_mytics = 5}
if ( my_graph2_max <= 200000*4 + 100000 ) { my_graph2_ytics = 200000; my_graph2_mytics = 4}
if ( my_graph2_max <= 100000*4 + 60000 ) { my_graph2_ytics = 100000; my_graph2_mytics = 5}
if ( my_graph2_max <= 50000*4 + 30000 ) { my_graph2_ytics = 50000; my_graph2_mytics = 5}
if ( my_graph2_max <= 25000*4 + 15000 ) { my_graph2_ytics = 25000; my_graph2_mytics = 5}
if ( my_graph2_max <= 20000*4 + 10000 ) { my_graph2_ytics = 20000; my_graph2_mytics = 4}
if ( my_graph2_max <= 10000*4 + 6000 ) { my_graph2_ytics = 10000; my_graph2_mytics = 5}
if ( my_graph2_max <= 5000*4 + 3000 ) { my_graph2_ytics = 5000; my_graph2_mytics = 5}
if ( my_graph2_max <= 2500*4 + 1500 ) { my_graph2_ytics = 2500; my_graph2_mytics = 5}
if ( my_graph2_max <= 2000*4 + 1000 ) { my_graph2_ytics = 2000; my_graph2_mytics = 4}
if ( my_graph2_max <= 1000*4 + 600 ) { my_graph2_ytics = 1000; my_graph2_mytics = 5}
if ( my_graph2_max <= 500*4 + 300 ) { my_graph2_ytics = 500; my_graph2_mytics = 5}
if ( my_graph2_max <= 250*4 + 150 ) { my_graph2_ytics = 250; my_graph2_mytics = 5}
if ( my_graph2_max <= 200*4 + 100 ) { my_graph2_ytics = 200; my_graph2_mytics = 4}
if ( my_graph2_max <= 100*4 + 60 ) { my_graph2_ytics = 100; my_graph2_mytics = 5}
if ( my_graph2_max <= 50*4 + 30 ) { my_graph2_ytics = 50; my_graph2_mytics = 5}
if ( my_graph2_max <= 25*4 + 15 ) { my_graph2_ytics = 25; my_graph2_mytics = 5}
if ( my_graph2_max <= 20*4 + 10 ) { my_graph2_ytics = 20; my_graph2_mytics = 4}
if ( my_graph2_max <= 10*4 + 6 ) { my_graph2_ytics = 10; my_graph2_mytics = 5}
if ( my_graph2_max <= 5*4 + 3 ) { my_graph2_ytics = 5; my_graph2_mytics = 5}
# Intervall zwischen zwei Skalenstrichen berechnen.
# Wir brauchen den Wert zum Berechnen von my_graph[1
|
Licensing
[edit]This file is made available under the Creative Commons CC0 1.0 Universal Public Domain Dedication. | |
The person who associated a work with this deed has dedicated the work to the public domain by waiving all of their rights to the work worldwide under copyright law, including all related and neighboring rights, to the extent allowed by law. You can copy, modify, distribute and perform the work, even for commercial purposes, all without asking permission.
http://creativecommons.org/publicdomain/zero/1.0/deed.enCC0Creative Commons Zero, Public Domain Dedicationfalsefalse |
File history
Click on a date/time to view the file as it appeared at that time.
Date/Time | Thumbnail | Dimensions | User | Comment | |
---|---|---|---|---|---|
current | 13:52, 26 December 2023 | 800 × 450 (445 KB) | Summer ... hier! (talk | contribs) | update | |
16:41, 30 October 2023 | 800 × 450 (429 KB) | Summer ... hier! (talk | contribs) | update | ||
07:30, 6 October 2023 | 800 × 450 (423 KB) | Summer ... hier! (talk | contribs) | update | ||
18:50, 6 September 2023 | 800 × 450 (415 KB) | Summer ... hier! (talk | contribs) | update | ||
15:50, 24 August 2023 | 800 × 450 (410 KB) | Summer ... hier! (talk | contribs) | update | ||
09:51, 10 August 2023 | 800 × 450 (406 KB) | Summer ... hier! (talk | contribs) | update | ||
00:48, 3 August 2023 | 800 × 450 (405 KB) | Summer ... hier! (talk | contribs) | update | ||
11:49, 27 July 2023 | 800 × 450 (403 KB) | Summer ... hier! (talk | contribs) | update | ||
21:38, 26 July 2023 | 800 × 450 (403 KB) | Summer ... hier! (talk | contribs) | update | ||
12:25, 13 July 2023 | 800 × 450 (398 KB) | Summer ... hier! (talk | contribs) | update |
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Short title | COVID_19_12_2023_TK |
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Image title | Produced by GNUPLOT 5.0 patchlevel rc2 |
Width | 800 |
Height | 450 |