မေႃႇၵျူး:Ordnance Survey coordinates
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This module is rated as ready for general use. It has reached a mature form and is thought to be relatively bug-free and ready for use wherever appropriate. It is ready to mention on help pages and other Wikipedia resources as an option for new users to learn. To reduce server load and bad output, it should be improved by sandbox testing rather than repeated trial-and-error editing. |
Uses Lua: |
လွင်ႈၸႂ်ႉတိုဝ်း
[မႄးထတ်းငဝ်ႈငႃႇ]Converts a OS grid ref to a lat/long hyperlink to geohack.
{{#invoke:Ordnance Survey coordinates|main|SK135733}}
← Two-letter code interpreted as OS grid ref in Great Britain{{#invoke:Ordnance Survey coordinates|main|O169318}}
← One-letter code interpreted as Irish OS grid ref{{#invoke:Ordnance Survey coordinates|main|439668_1175316}}
← Two digit strings interpreted as easting/northing in meters in Great Britain{{#invoke:Ordnance Survey coordinates|main|i88888_99999}}
← String starting with i is easting/northing in meters in Ireland{{#invoke:Ordnance Survey coordinates|main|SK135733|Miller's Dale}}
← Second argument is used as link text{{#invoke:Ordnance Survey coordinates|main|SK135733_scale:25000_region:GB-DBY}}
← extra underscored parameters passed to geohack
ဝႂ်
[မႄးထတ်းငဝ်ႈငႃႇ]
-- Lat Long functions in Lua
-- Ported to Lua from PHP by Wikipedia User Hike395, 18 Aug 2019
-- found by RWH at http://www.megalithia.com/search/llfuncshighlight.php
-- With thanks to Andy, G4JNT for inspiration in GEOG, and to the OSGB for their white paper on coordinate transformation
-- describing the iterative method used
-- thanks to the Ordnance survey of Ireland for details of the true and false origins of the Irish grid
-- You may use and redistribute this code under the terms of the GPL see http://www.gnu.org/copyleft/gpl.html
-- Written by Richard
-- www.megalithia.com
-- v0.something 27/2/2000
-- v 1.01 28 June 2004
-- v 1.02 6 Aug 2004 line 89 add "0" to chars in ngr=stripcharsnotinbag Thx Andy
-- v 1.03 9 Mar 2005 Jan (Klingon) added conversion to WGS84 map datum and removed limitation of digits of the grid ref
-- v 1.04 10 Aug 2005 Richard correct error trapping (only manifest on malformed ngrs
-- This code is predicated on the assumption that your are ONLY feeding it Irish or UK Grid references.
-- It uses the single char prefix of Irish grid refs to tell the difference, UK grid refs have a two letter prefix.
-- We would like an even number of digits for the rest of the grid ref.
-- Anything in the NGR other than 0-9, A-Z, a-z is eliminated.
-- WARNING this assumes there are no decimal points in your NGR components.
-- The transformation from OSGB36/Ireland 1965 to WGS84 is more precise than 5 m.
-- The function is case insensitive
local oscoord = {}
local getArgs = require('Module:Arguments').getArgs
local yesno = require('Module:Yesno')
local preview = require('Module:If preview')
local namespace = mw.title.getCurrentTitle().namespace;
local function northeast(lett,num,shift)
-- split into northings and eastings
local le=mw.ustring.len(num)
if le%2 == 1 then
return "Malformed numerical part of NGR"
end
local pr=le/2
local n = mw.ustring.sub(num,pr+1)
local e = mw.ustring.sub(num,1,pr)
-- Hack to move to center of square: append a 5 to northings and eastings
if shift ~= nil and shift > 0 then
n = n.."5"
e = e.."5"
pr = pr+1
end
-- end hack
n = n == '' and 0 or n
e = e == '' and 0 or e
pr = math.pow(10.0,(5.0-pr))
local T1 = mw.ustring.byte(mw.ustring.sub(lett,1,1))-65
if T1>8 then
T1 = T1-1
end
local T2 = nil
if mw.ustring.len(lett)>1 then
T2 = mw.ustring.byte(mw.ustring.sub(lett,2))-65
if T2>8 then
T2 = T2-1
end
end
return nil,n,e,pr,T1,T2
end
local function GBEN2LL(e,n)
local pow,sqrt,abs=math.pow,math.sqrt,math.abs
local sin,cos,tan,atan=math.sin,math.cos,math.tan,math.atan
local dr = math.deg(1.0)
-- True Origin is 2 deg W
local phi0uk=-2.0
-- True Origin is 49 deg N
local lambda0uk=49.0
-- scale factor @ central meridian
local F0uk=0.9996012717
-- True origin in 400 km E of false origin
local E0uk=400000.0
--True origin is 100 km S of false origin
local N0uk=-100000.0
-- semi-major axis (in line to equator) 0.996012717 is yer scale @ central meridian
local auk=6377563.396*F0uk
--semi-minor axis (in line to poles)
local buk=6356256.91*F0uk
-- flatness=a1-b1/(a1+b1)
local n1uk=0.00167322025032508731869331280635710896296
-- first eccentricity squared=2*f-f^2where f=(a1-b1)/a1
local e2uk=0.006670539761597529073698869358812557054558
local k=(n-N0uk)/auk+lambda0uk/dr
local nextcounter=0
local j3, j4, j5, j6, m
repeat
nextcounter=nextcounter+1
local k3=k-lambda0uk/dr
local k4=k+lambda0uk/dr
j3=(1.0+n1uk+1.25*pow(n1uk,2.0)+1.25*pow(n1uk,3.0))*k3
j4=(3.0*n1uk+3.0*pow(n1uk,2.0)+2.625*pow(n1uk,3.0))*sin(k3)*cos(k4)
j5=(1.875*pow(n1uk,2.0)+1.875*pow(n1uk,3.0))*sin(2.0*k3)*cos(2.0*k4)
j6=35.0/24.0*pow(n1uk,3.0)*sin(3.0*k3)*cos(3.0*k4)
m=buk*(j3-j4+j5-j6)
k=k+(n-N0uk-m)/auk
until abs(n-N0uk-m)<=0.000000001 or nextcounter>=100
local v=auk/sqrt(1.0-e2uk*pow(sin(k),2.0))
local r=v*(1.0-e2uk)/(1.0-e2uk*pow(sin(k),2.0))
local h2=v/r-1.0
local y1=e-E0uk
j3=tan(k)/(2.0*r*v)
j4=tan(k)/(24.0*r*pow(v,3.0))*(5.0+3.0*pow(tan(k),2.0)+h2-9.0*pow(tan(k),2.0)*h2)
j5=tan(k)/(720.0*r*pow(v,5.0))*(61.0+90.0*pow(tan(k),2.0)+45.0*pow(tan(k),4.0))
local k9=k-y1*y1*j3+pow(y1,4.0)*j4-pow(y1,6.0)*j5
j6=1.0/(cos(k)*v)
local j7=1.0/(cos(k)*6.0*pow(v,3.0))*(v/r+2.0*pow(tan(k),2.0))
local j8=1.0/(cos(k)*120.0*pow(v,5.0))*(5.0+28.0*pow(tan(k),2.0)+24.0*pow(tan(k),4.0))
local j9=1.0/(cos(k)*5040.0*pow(v,7.0))
local j9=j9*(61.0+662.0*pow(tan(k),2.0)+1320.0*pow(tan(k),4.0)+720.0*pow(tan(k),6.0))
local long=phi0uk+dr*(y1*j6-y1*y1*y1*j7+pow(y1,5.0)*j8-pow(y1,7.0)*j9)
local lat=k9*dr
local v=6377563.396/sqrt(1.0-e2uk*pow(sin(k),2.0))
local cartxa=v*cos(k9)*cos(long/dr)
local cartya=v*cos(k9)*sin(long/dr)
local cartza=(1.0-e2uk)*v*sin(k9)
-- Helmert-Transformation from OSGB36 to WGS84 map date
local rotx=-0.1502/3600.0/dr
local roty=-0.2470/3600.0/dr
local rotz=-0.8421/3600.0/dr
local scale=-20.4894/1000000.0
local cartxb=446.448+(1.0+scale)*cartxa+rotz*cartya-roty*cartza
local cartyb=-125.157-rotz*cartxa+(1.0+scale)*cartya+rotx*cartza
local cartzb=542.06+roty*cartxa-rotx*cartya+(1.0+scale)*cartza
-- convert Cartesian to long/lat
local awgs84=6378137.0
local bwgs84=6356752.3141
local e2wgs84=0.00669438003551279089034150031998869922791
local lambdaradwgs84=atan(cartyb/cartxb)
long=lambdaradwgs84*dr
local pxy=sqrt(pow(cartxb,2.0)+pow(cartyb,2.0))
local phiradwgs84
local phinewwgs84=atan(cartzb/pxy/(1.0-e2wgs84))
nextcounter=0
repeat
phiradwgs84=phinewwgs84
nextcounter=nextcounter+1
v=awgs84/sqrt(1.0-e2wgs84*pow(sin(phiradwgs84),2.0))
phinewwgs84=atan((cartzb+e2wgs84*v*sin(phiradwgs84))/pxy)
until abs(phinewwgs84-phiradwgs84)<=0.000000000001 or nextcounter>=100
lat=phinewwgs84*dr
return "GB",nil,lat,long
end
local function GB2LL(lett,num)
-- British OS to Lat+Long
-- first caclulate e,n
-- computing e and n exactly, to get SW corner of box
local err, n, e, pr, T1, T2 = northeast(lett,num,0)
if err ~= nil then
return "GB",err,0.0,0.0
end
-- use British definition of e and n
e=500000.0*(T1%5)+100000.0*(T2%5)-1000000.0+e*pr
n=1900000.0-500000.0*math.floor(T1/5)-100000.0*math.floor(T2/5)+n*pr
return GBEN2LL(e,n)
end
local function IrishEN2LL(e,n)
local pow,sqrt,abs=math.pow,math.sqrt,math.abs
local sin,cos,tan,atan=math.sin,math.cos,math.tan,math.atan
local dr=math.deg(1.0)
-- True Origin is 8 deg W
local phi0ir=-8.0
-- True Origin is 53.5 deg N
local lambda0ir=53.5
-- scale factor @ central meridian
local F0ir=1.000035
-- True origin in 200 km E of false origin
local E0ir=200000.0
--True origin is 250km N of false origin
local N0ir=250000.0
-- semi-major axis (in line to equator) 1.000035 is yer scale @ central meridian
local air=6377340.189*F0ir
--semi-minor axis (in line to poles)
local bir=6356034.447*F0ir
-- flatness=a1-b1/(a1 + b1)
local n1ir=0.001673220384152058651484728058385228837777
-- first eccentricity squared=2*f-f^2 where f=(a1-b1)/a1
local e2ir=0.006670540293336110419293763349975612794125
local k=(n-N0ir)/air+lambda0ir/dr
local nextcounter=0
local j3,j4,j5,j6,m
repeat
nextcounter=nextcounter+1
local k3=k-lambda0ir/dr
local k4=k+lambda0ir/dr
j3=(1.0+n1ir+1.25*pow(n1ir,2.0)+1.25*pow(n1ir,3.0))*k3
j4=(3.0*n1ir+3.0*pow(n1ir,2.0)+2.625*pow(n1ir,3.0))*sin(k3)*cos(k4)
j5=(1.875*pow(n1ir,2.0)+1.875*pow(n1ir,3.0))*sin(2.0*k3)*cos(2.0*k4)
j6=35.0/24.0*pow(n1ir,3.0)*sin(3.0*k3)*cos(3.0*k4)
m=bir*(j3-j4+j5-j6)
k=k+(n-N0ir-m)/air
until abs(n-N0ir-m)<=0.000000000001 or nextcounter>=10000
local v=air/sqrt(1.0-e2ir*pow(sin(k),2.0))
local r=v*(1.0-e2ir)/(1.0-e2ir*pow(sin(k),2.0))
local h2=v/r-1.0
local y1=e-E0ir
j3=tan(k)/(2.0*r*v)
j4=tan(k)/(24.0*r*pow(v,3.0))*(5.0+3.0*pow(tan(k),2.0)+h2-9.0*pow(tan(k),2.0)*h2)
j5=tan(k)/(720.0*r*pow(v,5.0))*(61.0+90.0*pow(tan(k),2.0)+45.0*pow(tan(k),4.0))
local k9=k-y1*y1*j3+pow(y1,4.0)*j4-pow(y1,6.0)*j5
j6=1.0/(cos(k)*v)
local j7=1.0/(cos(k)*6.0*pow(v,3.0))*(v/r+2.0*pow(tan(k),2.0))
local j8=1.0/(cos(k)*120.0*pow(v,5.0))*(5.0+28.0*pow(tan(k),2.0)+24.0*pow(tan(k),4.0))
local j9=1.0/(cos(k)*5040.0*pow(v,7.0))
local j9=j9*(61.0+662.0*pow(tan(k),2.0)+1320.0*pow(tan(k),4.0)+720.0*pow(tan(k),6.0))
local long=phi0ir+dr*(y1*j6-y1*y1*y1*j7+pow(y1,5.0)*j8-pow(y1,7.0)*j9)
local lat=k9*dr
-- convert long/lat to Cartesian coordinates
v=6377340.189/sqrt(1.0-e2ir*pow(sin(k),2.0))
local cartxa=v*cos(k9)*cos(long/dr)
local cartya=v*cos(k9)*sin(long/dr)
local cartza=(1.0-e2ir)*v*sin(k9)
-- Helmert-Transformation from Ireland 1965 to WGS84 map date
local rotx=1.042/3600.0/dr
local roty=0.214/3600.0/dr
local rotz=0.631/3600.0/dr
local scale=8.15/1000000.0
local cartxb=482.53+(1.0+scale)*cartxa+rotz*cartya-roty*cartza
local cartyb=-130.596-rotz*cartxa+(1.0+scale)*cartya+rotx*cartza
local cartzb=564.557+roty*cartxa-rotx*cartya+(1.0+scale)*cartza
-- convert Cartesian to long/lat
local awgs84=6378137.0
local bwgs84=6356752.3141
local e2wgs84=0.00669438003551279089034150031998869922791
local lambdaradwgs84=atan(cartyb/cartxb)
long=lambdaradwgs84*dr
local pxy=sqrt(pow(cartxb,2.0)+pow(cartyb,2.0))
local phinewwgs84=atan(cartzb/pxy/(1.0-e2wgs84))
local phiradwgs84
nextcounter=0
repeat
phiradwgs84=phinewwgs84
nextcounter=nextcounter+1
v=awgs84/sqrt(1.0-e2wgs84*pow(sin(phiradwgs84),2.0))
phinewwgs84=atan((cartzb+e2wgs84*v*sin(phiradwgs84))/pxy)
until abs(phinewwgs84-phiradwgs84)<=0.000000000001 or nextcounter>=10000
lat=phinewwgs84*dr
return "IE",nil,lat,long
end
local function Irish2LL(lett,num)
-- Irish OS to Lat+Long
-- first caclulate e,n
-- computing e and n exactly, to get SW corner of box
local err, n, e, pr, T1 = northeast(lett,num,0)
if err ~= nil then
return "IE",err,0.0,0.0
end
-- use Irish definition of northing and easting
local e=100000.0*(T1%5.0)+e*pr
local n=n*pr+100000.0*(4.0-math.floor(T1/5.0))
return IrishEN2LL(e,n)
end
local function empty(s)
return s == nil or s == ''
end
local function NGR2LL(ngr)
-- returns a country,error,lat,long list
ngr = mw.ustring.gsub(mw.ustring.upper(ngr),"[%s%p]","")
local first, last, lett, num = mw.ustring.find(ngr,"^([A-Z]+)(%d+)$")
if first == nil or empty(lett) or empty(num) or mw.ustring.len(lett) > 2 then
return nil,"Malformed NGR",0.0,0.0
end
if mw.ustring.len(lett) == 1 then
return Irish2LL(lett,num)
end
return GB2LL(lett, num)
end
local function split(s,sep)
-- split a string s into chunks, separated by sep
sep = sep or "%s"
local t = {}
for chunk in mw.ustring.gmatch(s,"([^"..sep.."]+)") do
table.insert(t,chunk)
end
return t
end
local function trim(s)
s = mw.ustring.gsub(s,"^%s+","")
s = mw.ustring.gsub(s,"%s+$","")
return s
end
local function alldigits(s)
return mw.ustring.find(s,"%D") == nil
end
local function warning(errmsg)
local msg = errmsg or 'Empty OS grid ref'
local html = preview._warning({ msg })
if namespace == 0 and errmsg ~= nil then
html = html..'[[Category:Pages with malformed OS coordinates]]'
end
return html
end
function oscoord.main(frame)
local args = getArgs(frame,{parentFirst=true,parentOnly=false,frameOnly=false})
local input = args[1]
if empty(input) then
return warning(nil)
end
local linktitle = args[2]
local namearg = args["name"]
local rawurl = args["rawurl"]
local args = split(input,'_')
local LL
local restargs = 1
local current_page = mw.title.getCurrentTitle()
local pagename = mw.uri.encode( current_page.prefixedText, 'WIKI' );
if #args >= 2 and alldigits(args[2]) then
if mw.ustring.sub(args[1],1,1) == 'i' then
local firstArg = mw.ustring.sub(args[1],2)
if alldigits(firstArg) then
LL = {IrishEN2LL(firstArg,args[2])}
restargs = 3
if empty(linktitle) then
linktitle=args[1]..'_'..args[2]
end
end
elseif alldigits(args[1]) then
LL = {GBEN2LL(args[1],args[2])}
restargs = 3
if empty(linktitle) then
linktitle=args[1]..'_'..args[2]
end
end
else
LL = {NGR2LL(args[1])}
restargs = 2
if empty(linktitle) then
linktitle=args[1]
end
end
linktitle = trim(linktitle)
if not empty(LL[2]) then
return linktitle ..warning(LL[2])
end
-- https://geohack.toolforge.org/geohack.php?pagename=Mount_Whitney¶ms=36.578580925_N_118.29199495_W_type:mountain_region:US-CA_scale:100000_source:NGS
local url = ''
if not yesno(rawurl) then
url = url..'['
end
url = url..'https://geohack.toolforge.org/geohack.php?'
if not empty(pagename) then
url = url..'pagename='..pagename..'&'
end
url = url..'params='..LL[3]..'_N_'
if LL[4] < 0 then
url = url..(-LL[4])..'_W'
else
url = url..LL[4]..'_E'
end
for i = restargs,#args do
url = url..'_'..args[i]
end
if mw.ustring.find(input,"region") == nil then
url = url..'_region:'..LL[1]
end
if not empty(namearg) then
url = url .. "&title=" .. mw.uri.encode(namearg)
end
if not yesno(rawurl) then
url = url..' '..linktitle..']'
end
return url
end
function oscoord.oscoord(frame)
local output = '<span class="plainlinks nourlexpansion" style="white-space: nowrap">' .. oscoord.main(frame) .. '</span>'
if namespace == 0 then
output = output .. '[[Category:Articles with OS grid coordinates]]'
end
return output
end
return oscoord