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event
Sun elevation, Moon elevation, Twilight, Polar day/night Sun, Polar day/night Moon, Apparent Solar/Lunar time, Moon Orbit, Moon Equinoxes, Solar eclipse, Lunar eclipse, Earth orbit, Mercury orbit, Venus orbit, Mars orbit, Jupiter orbit, Saturn orbit, Transit Mercury/Venus, Moon/Sun state, Solar system state
All times are in UTC. Coordinates are given with east and north as positive values.
A cgi-bin/event.pl?
URL-request has the following parameters:
- eventStart: start time given as "YYYY-MM-DDTHH:MI:SSZ";
- eventSearch: event search code; -1:previous, +1:next, 0: both, +2:until eventStop;
- eventStop: report all events until eventStop given as "YYYY-MM-DDTHH:MI:SSZ", must only be present if eventSearch=+2;
- eventId: requested event id (SEE TABLES BELOW);
- eventVal<N>: input data (SEE TABLES BELOW) array, where <N> is the array index. Too high array indexes are ignored;
-
debug: report CPU-usage:
1
, no hints: '-1';
Several event-requests can be processed in the same URL by assigning a sequence number immediately after event in the parameter name, for instance event3Id or event3Val1. If sequence numbers are used, parameters without sequence numbers indicate default values and are not processed as a separate request. An event is processed when the sequence number changes, so default values should appear before the sequence number changes. The length of the URL query_string is limited to 1000 characters.
The XML output contains a list of the events found, with attributes referring to the input URL parameters:
- Seq : sequence number;
- Id : same as eventId;
- Start : same as eventStart time;
- Stop : same as eventStop time;
- Search : same as eventSearch;
- Val1 : same as eventVal1;
- Val2 : same as eventVal2;
- Val3 : same as eventVal3;
- Val4 : same as eventVal4;
- Val5 : same as eventVal5;
- reports : number of reports in the event;
- cost : CPU cost in milliseconds, if debug-mode is active;
Each event contains reports with data attributes:
- no : report number, unique to the event;
- time : time of the event as "YYYY-MM-DDTHH:MI:SSZ";
- repId : report identification, SEE TABLES BELOW for details;
- repVal : report value;
- hint : a redundant description of the report;
Note that a new type of report, with a different repId, may be added to an event without further notice. It is therefore recommended that you always check the repId to make sure it is the type you need, even if there currently is only one type of report present for that event.
This is an example of a cgi-bin/event.pl?
request: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;event1Id=600;event3Id=610;
(astro-test)
with the resulting XML output:
<?xml version="1.0" encoding="utf-8"?>
<astrodata xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns="http://astro.met.no" xsi:schemaLocation="http://astro.met.no/astro event.xsd"><meta licenseurl="1"/>
<Event Seq="1" Start="2014-10-10T10:10:10Z" Search="1" reports="3" Id="600" cost="4ms" Val1="60" Val2="0" Val3="0">
<Report no="1" time="2014-10-11T06:29:11Z" repId="600" hint="2014/10/11 06:29:11 LOCAL DIURNAL SUN RISE"/>
<Report no="2" time="2014-10-11T06:29:11Z" repId="601" repVal="102.656930789" hint="2014/10/11 06:29:11 LOCAL DIURNAL SUN RISE (Solar azimuth)"/>
<Report no="3" time="2014-10-11T06:29:11Z" repId="602" repVal="-0.566420847" hint="2014/10/11 06:29:11 LOCAL DIURNAL SUN RISE (Solar elevation)"/>
</Event>
<Event Seq="3" Start="2014-10-10T10:10:10Z" Search="1" reports="3" Id="610" cost="0ms" Val1="60" Val2="0" Val3="0">
<Report no="1" time="2014-10-10T17:06:04Z" repId="610" hint="2014/10/10 17:06:04 LOCAL DIURNAL SUN SET"/>
<Report no="2" time="2014-10-10T17:06:04Z" repId="611" repVal="257.770941159" hint="2014/10/10 17:06:04 LOCAL DIURNAL SUN SET (Solar azimuth)"/>
<Report no="3" time="2014-10-10T17:06:04Z" repId="612" repVal="-0.56637746" hint="2014/10/10 17:06:04 LOCAL DIURNAL SUN SET (Solar elevation)"/>
</Event>
</astrodata>
URL arguments:
- eventid=80;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=80 : repVal = <Hours visible moon in period>;
- repId=81 : Moon rise;
- repId=84 : repVal = <Lunar azimuth>;
- repId=85 : repVal = <Lunar elevation>;
- repId=86 : repVal = <Lunar illumination>;
- repId=87 : Moon set;
- repId=90 : repVal = <Lunar azimuth>;
- repId=91 : repVal = <Lunar elevation>;
- repId=92 : repVal = <Lunar illumination>;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;event1Id=80; (astro-test).
URL arguments:
- eventid=100;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML report output:
- repId=100 : repVal = <Moon diurnal state> (repVal >= 1: "moon is above horison", repVal <=-1: "moon is below");
- repId=101 : repVal = <Moon polar state> (repVal >= 1: "lunar polar day", repVal ==0: "no lunar polar effect", repVal <=-1: "lunar polar night");
- repId=102 : repVal = <Moon phase> (0<=repVal<25 = "waxing crescent", 25<=repVal<50="waxing gibbous",50<=repVal<75="waning gibbous",75<=repVal<100="waning crescent");
- repId=103 : repVal = <Shadow clock angle> (deg, 0:"sun up", 90:"sun right", 180:"sun down",270:"sun left");
- repId=104 : repVal = <Shadow incidence angle> (deg, -90:"100% shadow", 0:"50% shadow", 90:"0% shadow");
URL arguments:
- eventid=110;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
- eventVal4=<Time increment (days)>;
XML output:
- repId=110 : repVal = <Moon elevation of upper limb (deg)>;
- repId=111 : repVal = <Moon azimuth (deg)>;
- repId=112 : repVal = <Moon range (km)>;
- repId=113 : repVal = <Shadow clock angle> (deg, 0:"sun up", 90:"sun right", 180:"sun down",270:"sun left");
- repId=114 : repVal = <Shadow incidence angle> (deg, -90:"100% shadow", 0:"50% shadow", 90:"0% shadow");
- repId=115 : repVal = <Moon phase> (0<=repVal<25 = "waxing crescent", 25<=repVal<50="waxing gibbous",50<=repVal<75="waning gibbous",75<=repVal<100="waning crescent");
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=2;eventStop=2014-10-11T10:10:10Z;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;eventVal4=0.1;eventId=110; (astro-test).
URL arguments:
- eventid=120;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=120 : repVal = <Sun diurnal state> (repVal >= 1: "sun is above horison", repVal <=-1: "sun is below horizon");
- repId=121 : repVal = <Sun polar state> (repVal >= 1: "polar day", repVal ==0: "no polar effect", repVal <=-1: "polar night");
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;event1Id=120; (astro-test).
URL arguments:
- eventid=130;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
- eventVal4=<Time increment (days)>;
XML output:
- repId=130 : repVal = <Sun elevation of upper limb(deg)>;
- repId=131 : repVal = <Sun azimuth (deg)>;
- repId=132 : repVal = <Sun range (km)>;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=2;eventStop=2014-10-11T10:10:10Z;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;eventVal4=0.1;eventId=130; (astro-test).
URL arguments:
- eventid=140;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=140 : repVal = <Hours visible sun in period>;
- repId=141 : Sun rise;
- repId=142 : repVal = <Solar azimuth>;
- repId=143 : repVal = <Solar elevation>;
- repId=145 : Sun set;
- repId=146 : repVal = <Solar azimuth>;
- repId=147 : repVal = <Solar elevation>;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;event1Id=140; (astro-test).
URL arguments:
- eventid=150;
XML output:
- repId=150 : Event found;
URL arguments:
- eventid=160;
XML output:
- repId=160 : Event found;
URL arguments:
- eventid=170;
XML output:
- repId=170 : Event found;
URL arguments:
- eventid=180;
XML output:
- repId=180 : Event found;
URL arguments:
- eventid=190;
XML output:
- repId=190 : repVal = <Sun range (km)>;
URL arguments:
- eventid=195;
XML output:
- repId=195 : repVal = <Sun range (km)>;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=150;event2Id=160;event3Id=170;event4Id=180;event5Id=190;event6Id=195; (astro-test).
URL arguments:
- eventid=200;
XML output:
- repId=200 : repVal = <Moon range (km)>;
URL arguments:
- eventid=205;
XML output:
- repId=205 : repVal = <Moon range (km)>;
URL arguments:
- eventid=210;
XML output:
- repId=210 : Event found;
URL arguments:
- eventid=220;
XML output:
- repId=220 : Event found;
URL arguments:
- eventid=230;
XML output:
- repId=230 : Event found;
URL arguments:
- eventid=240;
XML output:
- repId=240 : Event found;
URL arguments:
- eventid=250;
- eventVal1=<Target moon phase>;
XML output:
- repId=250 : Event found;
URL arguments:
- eventid=260;
XML output:
- repId=260 : Event found;
URL arguments:
- eventid=270;
XML output:
- repId=270 : Event found;
URL arguments:
- eventid=280;
- eventVal1=<Target moon illumination>;
XML output:
- repId=280 : Event found;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=210;event2Id=220;event3Id=230;event4Id=240;event5Id=250;event5Val1=54.321;event6Id=260;event7Id=270;event8Id=280;event8Val1=12.345;event9Id=200;event10Id=205; (astro-test).
URL arguments:
- eventid=290;
XML output:
- repId=290 : Event found;
URL arguments:
- eventid=292;
XML output:
- repId=292 : Event found;
URL arguments:
- eventid=294;
XML output:
- repId=294 : Event found;
URL arguments:
- eventid=296;
XML output:
- repId=296 : Event found;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=290;event2Id=292;event3Id=294;event4Id=296;event5Id=200;event6Id=205; (astro-test).
URL arguments:
- eventid=300;
XML output:
- repId=300 : Event found;
URL arguments:
- eventid=310;
XML output:
- repId=310 : Event found;
URL arguments:
- eventid=320;
XML output:
- repId=320 : Event found;
URL arguments:
- eventid=330;
XML output:
- repId=330 : Event found;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=300;event2Id=310;event3Id=320;event4Id=330; (astro-test).
URL arguments:
- eventid=340;
XML output:
- repId=340 : Event found;
URL arguments:
- eventid=350;
XML output:
- repId=350 : Event found;
URL arguments:
- eventid=360;
XML output:
- repId=360 : Event found;
URL arguments:
- eventid=370;
XML output:
- repId=370 : Event found;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=340;event2Id=350;event3Id=360;event4Id=370; (astro-test).
URL arguments:
- eventid=380;
XML output:
- repId=380 : Event found;
URL arguments:
- eventid=390;
XML output:
- repId=390 : Event found;
URL arguments:
- eventid=400;
XML output:
- repId=400 : Event found;
URL arguments:
- eventid=410;
XML output:
- repId=410 : Event found;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=380;event2Id=390;event3Id=400;event4Id=410; (astro-test).
URL arguments:
- eventid=420;
XML output:
- repId=420 : Event found;
URL arguments:
- eventid=430;
XML output:
- repId=430 : Event found;
URL arguments:
- eventid=440;
XML output:
- repId=440 : Event found;
URL arguments:
- eventid=450;
XML output:
- repId=450 : Event found;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=420;event2Id=430;event3Id=440;event4Id=450; (astro-test).
URL arguments:
- eventid=460;
XML output:
- repId=460 : Event found;
URL arguments:
- eventid=470;
XML output:
- repId=470 : Event found;
URL arguments:
- eventid=480;
XML output:
- repId=480 : Event found;
URL arguments:
- eventid=490;
XML output:
- repId=490 : Event found;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=460;event2Id=470;event3Id=480;event4Id=490; (astro-test).
URL arguments:
- eventid=500;
XML output:
- repId=500 : transit starts;
- repId=501 : transit ends;
URL arguments:
- eventid=520;
XML output:
- repId=520 : Transit starts;
- repId=521 : Transit ends;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=500;event2Id=520; (astro-test).
URL arguments:
- eventid=550;
- eventVal1=<Minimum occultation (0 to 100)>;
- eventVal2=<Maximum occultation (0 to 100)>;
XML output:
- repId=550 : Penumbra contact starts (P1);
- repId=551 : Umbra contact starts (U1);
- repId=552 : Total eclipse starts (U2);
- repId=553 : repVal = <Maximum occultation>;
- repId=554 : Total eclipse stops (U3);
- repId=555 : Umbra contact stops (U4);
- repId=556 : Penumbra contact stops (P2);
URL arguments:
- eventid=560;
XML output:
- repId=560 : Penumbra contact starts (P1);
- repId=561 : Umbra contact starts (U1);
- repId=562 : Total eclipse starts (U2);
- repId=563 : repVal = <Maximum occultation>;
- repId=564 : Total eclipse stops (U3);
- repId=565 : Umbra contact stops (U4);
- repId=566 : Penumbra contact stops (P2);
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=550;event1Val1=10.0;event1Val2=100.0;event2Id=560; (astro-test).
URL arguments:
- eventid=600;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=600 : Event found;
- repId=601 : repVal = <Solar azimuth>;
- repId=602 : repVal = <Solar elevation>;
URL arguments:
- eventid=610;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=610 : Event found;
- repId=611 : repVal = <Solar azimuth>;
- repId=612 : repVal = <Solar elevation>;
URL arguments:
- eventid=620;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=620 : repVal = <Maximum solar elevation of upper limb (deg)>;
- repId=621 : repVal = <Solar azimuth>;
- repId=622 : repVal = <Solar elevation>;
URL arguments:
- eventid=630;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=630 : repVal = <Minimum solar elevation of upper limb (deg)>;
- repId=631 : repVal = <Solar azimuth>;
- repId=632 : repVal = <Solar elevation>;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=600;event2Id=610;event3Id=620;event4Id=630; (astro-test).
URL arguments:
- eventid=640;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=640 : Event found;
- repId=641 : repVal = <Solar azimuth>;
- repId=642 : repVal = <Solar elevation>;
URL arguments:
- eventid=650;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=650 : Event found;
- repId=651 : repVal = <Solar azimuth>;
- repId=652 : repVal = <Solar elevation>;
URL arguments:
- eventid=660;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=660 : Event found;
- repId=661 : repVal = <Solar azimuth>;
- repId=662 : repVal = <Solar elevation>;
URL arguments:
- eventid=670;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=670 : Event found;
- repId=671 : repVal = <Solar azimuth>;
- repId=672 : repVal = <Solar elevation>;
URL arguments:
- eventid=680;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=680 : Event found;
- repId=681 : repVal = <Solar azimuth>;
- repId=682 : repVal = <Solar elevation>;
URL arguments:
- eventid=690;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=690 : Event found;
- repId=691 : repVal = <Solar azimuth>;
- repId=692 : repVal = <Solar elevation>;
URL arguments:
- eventid=700;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=700 : Event found;
- repId=701 : repVal = <Solar azimuth>;
- repId=702 : repVal = <Solar elevation>;
URL arguments:
- eventid=710;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=710 : Event found;
- repId=711 : repVal = <Solar azimuth>;
- repId=712 : repVal = <Solar elevation>;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=640;event2Id=650;event3Id=660;event4Id=670;event5Id=680;event6Id=690;event7Id=700;event8Id=710; (astro-test).
URL arguments:
- eventid=750;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
- eventVal4=<Sun azimuth (deg)>;
XML output:
- repId=750 : Event found;
URL arguments:
- eventid=760;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
- eventVal4=<Apparent solar time (0 to 24)>;
XML output:
- repId=760 : Event found;
URL arguments:
- eventid=770;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
- eventVal4=<Apparent lunar time (0 to 24)>;
XML output:
- repId=770 : Event found;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;eventVal4=12.0;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=750;event2Val4=11.1;event2Id=760;event3Val4=12.0;event3Id=770; (astro-test).
URL arguments:
- eventid=800;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=800 : Event found;
- repId=803 : repVal = <Lunar azimuth>;
- repId=804 : repVal = <Lunar elevation>;
- repId=805 : repVal = <Lunar illumination>;
URL arguments:
- eventid=810;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=810 : Event found;
- repId=813 : repVal = <Lunar azimuth>;
- repId=814 : repVal = <Lunar elevation>;
- repId=815 : repVal = <Lunar illumination>;
URL arguments:
- eventid=820;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=820 : repVal = <Maximum moon elevation of upper limb>;
- repId=823 : repVal = <Lunar azimuth>;
- repId=824 : repVal = <Lunar elevation>;
- repId=825 : repVal = <Lunar illumination>;
URL arguments:
- eventid=830;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=830 : repVal = <Minimum moon elevation of upper limb>;
- repId=833 : repVal = <Lunar azimuth>;
- repId=834 : repVal = <Lunar elevation>;
- repId=835 : repVal = <Lunar illumination>;
URL arguments:
- eventid=840;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
- eventVal4=<Moon azimuth (deg)>;
XML output:
- repId=840 : Event found;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;eventVal4=90;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=800;event2Id=810;event3Id=820;event4Id=830;event5Id=840; (astro-test).
URL arguments:
- eventid=900;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=900 : Event found;
- repId=901 : Previous sun rise;
- repId=902 : repVal = <Solar azimuth>;
- repId=903 : repVal = <Solar elevation>;
URL arguments:
- eventid=910;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=910 : Event found;
- repId=911 : Next sun set;
- repId=912 : repVal = <Solar azimuth>;
- repId=913 : repVal = <Solar elevation>;
URL arguments:
- eventid=920;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=920 : Event found;
- repId=921 : Previous sun set;
- repId=922 : repVal = <Solar azimuth>;
- repId=923 : repVal = <Solar elevation>;
URL arguments:
- eventid=930;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=930 : Event found;
- repId=931 : Next sun rise;
- repId=932 : repVal = <Solar azimuth>;
- repId=933 : repVal = <Solar elevation>;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventVal1=70.0;eventVal2=0.0;eventVal3=0.0;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=900;event2Id=910;event3Id=920;event4Id=930; (astro-test).
URL arguments:
- eventid=940;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=940 : Event found;
- repId=941 : Previous moon rise;
URL arguments:
- eventid=950;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=950 : Event found;
- repId=951 : Next moon set;
URL arguments:
- eventid=960;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=960 : Event found;
- repId=961 : Previous moon set;
URL arguments:
- eventid=970;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=970 : Event found;
- repId=971 : Next moon rise;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventVal1=75.0;eventVal2=0.0;eventVal3=0.0;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=940;event2Id=950;event3Id=960;event4Id=970; (astro-test).
URL arguments:
- eventid=980;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
- eventVal4=<Minimum occultation (0 to 100)>;
- eventVal5=<Maximum occultation (0 to 100)>;
XML output:
- repId=980 : Partial solar eclipse starts;
- repId=981 : Total solar eclipse starts;
- repId=982 : repVal = <Maximum occultation>;
- repId=983 : Total solar eclipse stops;
- repId=984 : Partial solar eclipse stops;
URL arguments:
- eventid=990;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
XML output:
- repId=990 : Partial solar eclipse starts;
- repId=991 : Total solar eclipse starts;
- repId=992 : repVal = <Maximum occultation>;
- repId=993 : Total solar eclipse stops;
- repId=994 : Partial solar eclipse stops;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;eventStart=2014-10-10T10:10:10Z;eventSearch=1;event1Id=980;event1Val4=10.0;event1Val5=100.0;event2Id=990; (astro-test).
URL arguments:
- eventid=1000;
- eventVal1=<Geographic latitude of observer (deg)>;
- eventVal2=<Geographic longitude of observer (deg)>;
- eventVal3=<Height of observer above reference ellipsoide (km)>;
- eventVal4=<Time increment (days)>;
- eventVal5=<Number of planets (0..9)>;
XML output:
- repId=1000 : repVal = <Sun elevation (deg)>;
- repId=1001 : repVal = <Sun azimuth (deg)>;
- repId=1002 : repVal = <Sun range (km)>;
- repId=1010 : repVal = <Mercury elevation (deg)>;
- repId=1011 : repVal = <Mercury azimuth (deg)>;
- repId=1012 : repVal = <Mercury range (km)>;
- repId=1013 : repVal = <Mercury illumination (%)>;
- repId=1020 : repVal = <Venus elevation (deg)>;
- repId=1021 : repVal = <Venus azimuth (deg)>;
- repId=1022 : repVal = <Venus range (km)>;
- repId=1023 : repVal = <Venus illumination (%)>;
- repId=1030 : repVal = <Moon elevation (deg)>;
- repId=1031 : repVal = <Moon azimuth (deg)>;
- repId=1032 : repVal = <Moon range (km)>;
- repId=1033 : repVal = <Moon illumination (%)>;
- repId=1040 : repVal = <Mars elevation (deg)>;
- repId=1041 : repVal = <Mars azimuth (deg)>;
- repId=1042 : repVal = <Mars range (km)>;
- repId=1043 : repVal = <Mars illumination (%)>;
- repId=1050 : repVal = <Jupiter elevation (deg)>;
- repId=1051 : repVal = <Jupiter azimuth (deg)>;
- repId=1052 : repVal = <Jupiter range (km)>;
- repId=1060 : repVal = <Saturn elevation (deg)>;
- repId=1061 : repVal = <Saturn azimuth (deg)>;
- repId=1062 : repVal = <Saturn range (km)>;
- repId=1070 : repVal = <Uranus elevation (deg)>;
- repId=1071 : repVal = <Uranus azimuth (deg)>;
- repId=1072 : repVal = <Uranus range (km)>;
- repId=1080 : repVal = <Neptun elevation (deg)>;
- repId=1081 : repVal = <Neptun azimuth (deg)>;
- repId=1082 : repVal = <Neptun range (km)>;
- repId=1090 : repVal = <Pluto elevation (deg)>;
- repId=1091 : repVal = <Pluto azimuth (deg)>;
- repId=1092 : repVal = <Pluto range (km)>;
Example: http://astro.met.no/astro/cgi-bin/event.pl/?debug=1;eventVal1=60.0;eventVal2=0.0;eventVal3=0.0;eventVal4=0.1;eventStart=2014-10-10T10:10:10Z;eventSearch=1;eventId=1000; (astro-test).
This script works similar to cgi-bin/event.pl
, except that the output is in the json
format.