Geohash: Difference between revisions
No edit summary |
Thundergnat (talk | contribs) m (syntax highlighting fixup automation) |
||
Line 30: | Line 30: | ||
{{trans|Python}} |
{{trans|Python}} |
||
< |
<syntaxhighlight lang="11l">V ch32 = Array(‘0123456789bcdefghjkmnpqrstuvwxyz’) |
||
V bool2ch = Dict(enumerate(ch32), (i, ch) -> (bin(i).zfill(5), ch)) |
V bool2ch = Dict(enumerate(ch32), (i, ch) -> (bin(i).zfill(5), ch)) |
||
V ch2bool = Dict(bool2ch.items(), (k, v) -> (v, k)) |
V ch2bool = Dict(bool2ch.items(), (k, v) -> (v, k)) |
||
Line 71: | Line 71: | ||
(51.433718, -0.214126, 9), |
(51.433718, -0.214126, 9), |
||
(57.64911, 10.40744, 11)] |
(57.64911, 10.40744, 11)] |
||
print(‘encoder(lat=#.6, lng=#.6, pre=#.) = '#.'’.format(lat, lng, pre, encoder(lat, lng, pre)))</ |
print(‘encoder(lat=#.6, lng=#.6, pre=#.) = '#.'’.format(lat, lng, pre, encoder(lat, lng, pre)))</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
Line 83: | Line 83: | ||
{{libheader|Action! Tool Kit}} |
{{libheader|Action! Tool Kit}} |
||
{{libheader|Action! Real Math}} |
{{libheader|Action! Real Math}} |
||
< |
<syntaxhighlight lang="action!">INCLUDE "H6:REALMATH.ACT" |
||
CHAR ARRAY code32="0123456789bcdefghjkmnpqrstuvwxyz" |
CHAR ARRAY code32="0123456789bcdefghjkmnpqrstuvwxyz" |
||
Line 202: | Line 202: | ||
Test("51.433718","-0.214126",9) |
Test("51.433718","-0.214126",9) |
||
Test("57.64911","10.40744",11) |
Test("57.64911","10.40744",11) |
||
RETURN</ |
RETURN</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
[https://gitlab.com/amarok8bit/action-rosetta-code/-/raw/master/images/Geohash.png Screenshot from Atari 8-bit computer] |
[https://gitlab.com/amarok8bit/action-rosetta-code/-/raw/master/images/Geohash.png Screenshot from Atari 8-bit computer] |
||
Line 222: | Line 222: | ||
Factor comes with the <code>geohash</code> vocabulary. See the implementation [https://docs.factorcode.org/content/vocab-geohash.html here]. |
Factor comes with the <code>geohash</code> vocabulary. See the implementation [https://docs.factorcode.org/content/vocab-geohash.html here]. |
||
{{works with|Factor|0.99 2020-03-02}} |
{{works with|Factor|0.99 2020-03-02}} |
||
< |
<syntaxhighlight lang="factor">USING: formatting generalizations geohash io kernel sequences ; |
||
: encode-geohash ( latitude longitude precision -- str ) |
: encode-geohash ( latitude longitude precision -- str ) |
||
Line 238: | Line 238: | ||
! Decoding |
! Decoding |
||
"u4pruydqqvj" dup geohash> |
"u4pruydqqvj" dup geohash> |
||
"coordinates for %s ~= [%f, %f]\n" printf</ |
"coordinates for %s ~= [%f, %f]\n" printf</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
<pre> |
<pre> |
||
Line 249: | Line 249: | ||
=={{header|F_Sharp|F#}}== |
=={{header|F_Sharp|F#}}== |
||
< |
<syntaxhighlight lang="fsharp"> |
||
// Create a geoHash String. Nigel Galloway: June 26th., 2020 |
// Create a geoHash String. Nigel Galloway: June 26th., 2020 |
||
let fG n g=Seq.unfold(fun(α,β)->let τ=(α+β)/2.0 in Some(if τ>g then (0,(α,τ)) else (1,(τ,b)))) n |
let fG n g=Seq.unfold(fun(α,β)->let τ=(α+β)/2.0 in Some(if τ>g then (0,(α,τ)) else (1,(τ,b)))) n |
||
Line 257: | Line 257: | ||
let geoHash n g z=let N="0123456789bcdefghjkmnpqrstuvwxyz" in [|for τ in fN n g z do yield N.[fI τ]|] |> System.String |
let geoHash n g z=let N="0123456789bcdefghjkmnpqrstuvwxyz" in [|for τ in fN n g z do yield N.[fI τ]|] |> System.String |
||
printfn "%s\n%s\n%s" (geoHash 51.433718 -0.214126 2) (geoHash 51.433718 -0.214126 9) (geoHash 57.64911 10.40744 11) |
printfn "%s\n%s\n%s" (geoHash 51.433718 -0.214126 2) (geoHash 51.433718 -0.214126 9) (geoHash 57.64911 10.40744 11) |
||
</syntaxhighlight> |
|||
</lang> |
|||
{{out}} |
{{out}} |
||
<pre> |
<pre> |
||
Line 266: | Line 266: | ||
=={{header|Go}}== |
=={{header|Go}}== |
||
{{trans|Swift}} |
{{trans|Swift}} |
||
< |
<syntaxhighlight lang="go">package main |
||
import ( |
import ( |
||
Line 336: | Line 336: | ||
fmt.Printf("geohash for %v, precision %-2d = %s\n", loc, precs[i], geohash) |
fmt.Printf("geohash for %v, precision %-2d = %s\n", loc, precs[i], geohash) |
||
} |
} |
||
}</ |
}</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
Line 347: | Line 347: | ||
=={{header|Julia}}== |
=={{header|Julia}}== |
||
{{trans|Python}} |
{{trans|Python}} |
||
< |
<syntaxhighlight lang="julia">const ch32 = "0123456789bcdefghjkmnpqrstuvwxyz" |
||
const bool2ch = Dict(string(i-1, base=2, pad=5) => ch for (i, ch) in enumerate(ch32)) |
const bool2ch = Dict(string(i-1, base=2, pad=5) => ch for (i, ch) in enumerate(ch32)) |
||
const ch2bool = Dict(v => k for (k, v) in bool2ch) |
const ch2bool = Dict(v => k for (k, v) in bool2ch) |
||
Line 399: | Line 399: | ||
println("decoded = ", decoder(encoded)) |
println("decoded = ", decoder(encoded)) |
||
end |
end |
||
</ |
</syntaxhighlight>{{out}} |
||
<pre> |
<pre> |
||
encoder(lat=51.433718, lng=-0.214126, pre=2) = gc |
encoder(lat=51.433718, lng=-0.214126, pre=2) = gc |
||
Line 415: | Line 415: | ||
{{trans|Julia}} |
{{trans|Julia}} |
||
We omitted the test with precision 22 as it exceeds the capacity of a 64 bits integer. |
We omitted the test with precision 22 as it exceeds the capacity of a 64 bits integer. |
||
< |
<syntaxhighlight lang="nim">import math, strformat, strutils, sugar, tables |
||
const |
const |
||
Line 472: | Line 472: | ||
let encoded = encode(lat, long, pre) |
let encoded = encode(lat, long, pre) |
||
echo &"encoder(lat = {lat}, long = {long}, pre = {pre}) = {encoded}" |
echo &"encoder(lat = {lat}, long = {long}, pre = {pre}) = {encoded}" |
||
echo &"decoded = {decode(encoded)}</ |
echo &"decoded = {decode(encoded)}</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
Line 484: | Line 484: | ||
=={{header|Perl}}== |
=={{header|Perl}}== |
||
{{trans|Raku}} |
{{trans|Raku}} |
||
< |
<syntaxhighlight lang="perl">use strict; |
||
use warnings; |
use warnings; |
||
use feature 'say'; |
use feature 'say'; |
||
Line 536: | Line 536: | ||
map { sprintf("%.@{[max(3,$precision-3)]}f", ( -($$_[0] + $$_[1]) / 2)) . |
map { sprintf("%.@{[max(3,$precision-3)]}f", ( -($$_[0] + $$_[1]) / 2)) . |
||
' ± ' . sprintf('%.3e', (abs($$_[0] - $$_[1]) / 2)) |
' ± ' . sprintf('%.3e', (abs($$_[0] - $$_[1]) / 2)) |
||
} geo_decode($enc);}</ |
} geo_decode($enc);}</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
<pre>51.433718, -0.214126, 2 (Ireland, most of England and Wales, small part of Scotland): |
<pre>51.433718, -0.214126, 2 (Ireland, most of England and Wales, small part of Scotland): |
||
Line 563: | Line 563: | ||
=={{header|Phix}}== |
=={{header|Phix}}== |
||
<!--< |
<!--<syntaxhighlight lang="phix">(phixonline)--> |
||
<span style="color: #008080;">with</span> <span style="color: #008080;">javascript_semantics</span> |
<span style="color: #008080;">with</span> <span style="color: #008080;">javascript_semantics</span> |
||
<span style="color: #008080;">constant</span> <span style="color: #000000;">gBase32</span> <span style="color: #0000FF;">=</span> <span style="color: #008000;">"0123456789bcdefghjkmnpqrstuvwxyz"</span> |
<span style="color: #008080;">constant</span> <span style="color: #000000;">gBase32</span> <span style="color: #0000FF;">=</span> <span style="color: #008000;">"0123456789bcdefghjkmnpqrstuvwxyz"</span> |
||
Line 618: | Line 618: | ||
<span style="color: #7060A8;">printf</span><span style="color: #0000FF;">(</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"%-22s ==> %v\n"</span><span style="color: #0000FF;">,{</span><span style="color: #000000;">tests</span><span style="color: #0000FF;">[</span><span style="color: #000000;">i</span><span style="color: #0000FF;">],</span><span style="color: #000000;">decode_geohash</span><span style="color: #0000FF;">(</span><span style="color: #000000;">tests</span><span style="color: #0000FF;">[</span><span style="color: #000000;">i</span><span style="color: #0000FF;">])})</span> |
<span style="color: #7060A8;">printf</span><span style="color: #0000FF;">(</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"%-22s ==> %v\n"</span><span style="color: #0000FF;">,{</span><span style="color: #000000;">tests</span><span style="color: #0000FF;">[</span><span style="color: #000000;">i</span><span style="color: #0000FF;">],</span><span style="color: #000000;">decode_geohash</span><span style="color: #0000FF;">(</span><span style="color: #000000;">tests</span><span style="color: #0000FF;">[</span><span style="color: #000000;">i</span><span style="color: #0000FF;">])})</span> |
||
<span style="color: #008080;">end</span> <span style="color: #008080;">for</span> |
<span style="color: #008080;">end</span> <span style="color: #008080;">for</span> |
||
<!--</ |
<!--</syntaxhighlight>--> |
||
{{out}} |
{{out}} |
||
<pre> |
<pre> |
||
Line 636: | Line 636: | ||
=={{header|PicoLisp}}== |
=={{header|PicoLisp}}== |
||
< |
<syntaxhighlight lang="picolisp">(scl 20) |
||
(setq *GBASE32 (chop "0123456789bcdefghjkmnpqrstuvwxyz")) |
(setq *GBASE32 (chop "0123456789bcdefghjkmnpqrstuvwxyz")) |
||
(de encode (Lat Lng Prec) |
(de encode (Lat Lng Prec) |
||
Line 662: | Line 662: | ||
(println (encode 51.433718 -0.214126 2)) |
(println (encode 51.433718 -0.214126 2)) |
||
(println (encode 51.433718 -0.214126 9)) |
(println (encode 51.433718 -0.214126 9)) |
||
(println (encode 57.649110 10.407440 11))</ |
(println (encode 57.649110 10.407440 11))</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
<pre> |
<pre> |
||
Line 671: | Line 671: | ||
=={{header|Python}}== |
=={{header|Python}}== |
||
< |
<syntaxhighlight lang="python">ch32 = "0123456789bcdefghjkmnpqrstuvwxyz" |
||
bool2ch = {f"{i:05b}": ch for i, ch in enumerate(ch32)} |
bool2ch = {f"{i:05b}": ch for i, ch in enumerate(ch32)} |
||
ch2bool = {v : k for k, v in bool2ch.items()} |
ch2bool = {v : k for k, v in bool2ch.items()} |
||
Line 718: | Line 718: | ||
([57.64911, 10.40744] , 22)]: |
([57.64911, 10.40744] , 22)]: |
||
print("encoder(lat=%f, lng=%f, pre=%i) = %r" |
print("encoder(lat=%f, lng=%f, pre=%i) = %r" |
||
% (lat, lng, pre, encoder(lat, lng, pre)))</ |
% (lat, lng, pre, encoder(lat, lng, pre)))</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
Line 731: | Line 731: | ||
===Module based=== |
===Module based=== |
||
Reference: Used [https://www.movable-type.co.uk/scripts/geohash.html this] for verification. |
Reference: Used [https://www.movable-type.co.uk/scripts/geohash.html this] for verification. |
||
<lang |
<syntaxhighlight lang="raku" line>#20200615 Raku programming solution |
||
use Geo::Hash; |
use Geo::Hash; |
||
Line 747: | Line 747: | ||
# Village Raku is a development committee in north-western Nepal |
# Village Raku is a development committee in north-western Nepal |
||
# https://goo.gl/maps/33s7k2h3UrHCg8Tb6 |
# https://goo.gl/maps/33s7k2h3UrHCg8Tb6 |
||
say geo-encode(29.2021188e0, 81.5324561e0, 4);</ |
say geo-encode(29.2021188e0, 81.5324561e0, 4);</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
<pre>gc |
<pre>gc |
||
Line 760: | Line 760: | ||
to specify an odd precision so the error interval ends up the same for both latitude and longitude. |
to specify an odd precision so the error interval ends up the same for both latitude and longitude. |
||
<lang |
<syntaxhighlight lang="raku" line>my @Geo32 = <0 1 2 3 4 5 6 7 8 9 b c d e f g h j k m n p q r s t u v w x y z>; |
||
sub geo-encode ( Rat(Real) $latitude, Rat(Real) $longitude, Int $precision = 9 ) { |
sub geo-encode ( Rat(Real) $latitude, Rat(Real) $longitude, Int $precision = 9 ) { |
||
Line 800: | Line 800: | ||
say 'geo-decoded: ', geo-decode($enc).map( {-.sum/2 ~ ' ± ' ~ |
say 'geo-decoded: ', geo-decode($enc).map( {-.sum/2 ~ ' ± ' ~ |
||
(abs(.[0]-.[1])/2).Num.fmt('%.3e')} ).join(', ') ~ "\n"; |
(abs(.[0]-.[1])/2).Num.fmt('%.3e')} ).join(', ') ~ "\n"; |
||
}</ |
}</syntaxhighlight> |
||
<pre>51.433718, -0.214126, 2: |
<pre>51.433718, -0.214126, 2: |
||
geo-encoded: gc |
geo-encoded: gc |
||
Line 828: | Line 828: | ||
=={{header|Swift}}== |
=={{header|Swift}}== |
||
< |
<syntaxhighlight lang="swift">let base32 = "0123456789bcdefghjkmnpqrstuvwxyz" // no "a", "i", "l", or "o" |
||
extension String { |
extension String { |
||
Line 899: | Line 899: | ||
print ("Geohash for: \(coordinate2.toString()), precision = 11 : \(encodeGeohash(for: coordinate, withPrecision: 11))") |
print ("Geohash for: \(coordinate2.toString()), precision = 11 : \(encodeGeohash(for: coordinate, withPrecision: 11))") |
||
</syntaxhighlight> |
|||
</lang> |
|||
{{out}} |
{{out}} |
||
Line 910: | Line 910: | ||
=={{header|Vlang}}== |
=={{header|Vlang}}== |
||
{{trans|go}} |
{{trans|go}} |
||
< |
<syntaxhighlight lang="vlang">struct Location { |
||
lat f64 |
lat f64 |
||
lng f64 |
lng f64 |
||
Line 978: | Line 978: | ||
println("geohash for $loc, precision ${precs[i]:-2} = $geohash") |
println("geohash for $loc, precision ${precs[i]:-2} = $geohash") |
||
} |
} |
||
}</ |
}</syntaxhighlight> |
||
{{out}} |
{{out}} |
||
<pre>geohash for [51.433718, -0.214126], precision 2 = gc |
<pre>geohash for [51.433718, -0.214126], precision 2 = gc |
||
Line 987: | Line 987: | ||
{{trans|Swift}} |
{{trans|Swift}} |
||
{{libheader|Wren-fmt}} |
{{libheader|Wren-fmt}} |
||
< |
<syntaxhighlight lang="ecmascript">import "/fmt" for Fmt |
||
var gBase32 = "0123456789bcdefghjkmnpqrstuvwxyz" |
var gBase32 = "0123456789bcdefghjkmnpqrstuvwxyz" |
||
Line 1,032: | Line 1,032: | ||
var loc = "[%(Fmt.f(9, d[0][0], 6)), %(Fmt.f(9, d[0][1], 6))]" |
var loc = "[%(Fmt.f(9, d[0][0], 6)), %(Fmt.f(9, d[0][1], 6))]" |
||
System.print("geohash for %(loc), precision %(Fmt.d(-2, d[1])) = %(geohash)") |
System.print("geohash for %(loc), precision %(Fmt.d(-2, d[1])) = %(geohash)") |
||
}</ |
}</syntaxhighlight> |
||
{{out}} |
{{out}} |
Revision as of 14:09, 27 August 2022
Geohashes are used to represent standard latitude and longitude coordinates as single values in the form of a simple string -- using the digits (0-9) and the letters (B-Z excluding I, L, O). They can vary in length, with more characters in the string representing more precision.
- Task
Generate a Geohash with a desired precision from a coordinate represented as an array of two floating point numbers, latitude and longitude. (Ideally double precision).
- Example 1:
- print (encodeGeohash (for: [51.433718, -0.214126], withPrecision: 2))
- // Result: "gc" (all of Ireland, most of England and Wales, small part of Scotland)
- Example 2:
- print (encodeGeohash (for: [51.433718, -0.214126], withPrecision: 9))
- // Result: "gcpue5hp4" (the umpire's chair on Center Court at Wimbledon)
From the Wikipedia page, geohashes can be "useful in database systems where queries on a single index are much easier or faster than multiple-index queries."
- Extra credit
Provide a decode function to convert a geohash code back to latitude and longitude, expressed either as ranges or in median +/- deviation format.
- Reference
11l
V ch32 = Array(‘0123456789bcdefghjkmnpqrstuvwxyz’)
V bool2ch = Dict(enumerate(ch32), (i, ch) -> (bin(i).zfill(5), ch))
V ch2bool = Dict(bool2ch.items(), (k, v) -> (v, k))
F bisect(val, =mn, =mx, =bits)
V mid = (mn + mx) / 2
I val < mid
bits <<= 1
mx = mid
E
bits = bits << 1 [|] 1
mn = mid
R (mn, mx, bits)
F encoder(lat, lng, pre)
V (latmin, latmax) = (-90.0, 90.0)
V (lngmin, lngmax) = (-180.0, 180.0)
V bits = Int64(0)
L(i) 0 .< pre * 5
I i % 2 != 0
(latmin, latmax, bits) = bisect(lat, latmin, latmax, bits)
E
(lngmin, lngmax, bits) = bisect(lng, lngmin, lngmax, bits)
V b = bin(bits).zfill(pre * 5)
V geo = ((0 .< pre).map(i -> :bool2ch[@b[i * 5 .< (i + 1) * 5]]))
R geo.join(‘’)
F decoder(geo)
V (minmaxes, latlong) = ([[-90.0, 90.0], [-180.0, 180.0]], 1B)
L(c) geo
L(bit) :ch2bool[c]
minmaxes[latlong][bit != ‘1’] = sum(minmaxes[latlong]) / 2
latlong = !latlong
R minmaxes
L(lat, lng, pre) [(51.433718, -0.214126, 2),
(51.433718, -0.214126, 9),
(57.64911, 10.40744, 11)]
print(‘encoder(lat=#.6, lng=#.6, pre=#.) = '#.'’.format(lat, lng, pre, encoder(lat, lng, pre)))
- Output:
encoder(lat=51.433718, lng=-0.214126, pre=2) = 'gc' encoder(lat=51.433718, lng=-0.214126, pre=9) = 'gcpue5hp4' encoder(lat=57.649110, lng=10.407440, pre=11) = 'u4pruydqqvj'
Action!
INCLUDE "H6:REALMATH.ACT"
CHAR ARRAY code32="0123456789bcdefghjkmnpqrstuvwxyz"
PROC Encode(REAL POINTER lat,lng BYTE prec CHAR ARRAY hash)
REAL latMin,latMax,lngMin,lngMax,mid,r2,sum
REAL POINTER v,min,max
BYTE even,hashV,bits
IntToReal(2,r2)
ValR("-90",latMin) ValR("90",latMax)
ValR("-180",lngMin) ValR("180",lngMax)
hash(0)=0 hashV=0 even=1 bits=0
WHILE hash(0)<prec
DO
IF even THEN
v=lng min=lngMin max=lngMax
ELSE
v=lat min=latMin max=latMax
FI
RealAdd(min,max,sum)
RealDiv(sum,r2,mid)
hashV==LSH 1
IF RealGreaterOrEqual(v,mid) THEN
hashV==+1
RealAssign(mid,min)
ELSE
RealAssign(mid,max)
FI
even=1-even
IF bits<4 THEN
bits==+1
ELSE
bits=0
hash(0)==+1
hash(hash(0))=code32(hashV+1)
hashV=0
FI
OD
RETURN
BYTE FUNC GetCodeVal(CHAR c)
BYTE i
FOR i=1 TO code32(0)
DO
IF c=code32(i) THEN
RETURN (i-1)
FI
OD
RETURN (0)
PROC Decode(CHAR ARRAY hash REAL POINTER lat,lng,latPrec,lngPrec)
REAL latMin,latMax,lngMin,lngMax,r2,sum
REAL POINTER min,max
BYTE i,j,v,mask,even
IntToReal(2,r2)
ValR("-90",latMin) ValR("90",latMax)
ValR("-180",lngMin) ValR("180",lngMax)
even=1
FOR i=1 TO hash(0)
DO
v=GetCodeVal(hash(i))
mask=16
FOR j=1 TO 5
DO
IF even THEN
min=lngMin
max=lngMax
ELSE
min=latMin
max=latMax
FI
RealAdd(min,max,sum)
IF (v&mask)=mask THEN
RealDiv(sum,r2,min)
ELSE
RealDiv(sum,r2,max)
FI
even=1-even
mask==RSH 1
OD
OD
RealAdd(latMin,latMax,sum)
RealDiv(sum,r2,lat)
RealSub(latMax,lat,latPrec)
RealAdd(lngMin,lngMax,sum)
RealDiv(sum,r2,lng)
RealSub(lngMax,lng,lngPrec)
RETURN
PROC Test(CHAR ARRAY latStr,lngStr BYTE prec)
CHAR ARRAY hash(255)
REAL lat,lng,resLat,resLng,latPrec,lngPrec
ValR(latStr,lat) ValR(lngStr,lng)
Encode(lat,lng,prec,hash)
Decode(hash,resLat,resLng,latPrec,lngPrec)
Print("Input: ") PrintR(lat) Print(", ")
PrintR(lng) PrintF(", prec=%B%E",prec)
PrintF("Encode: %S%E",hash)
Print("Decode: ") PrintR(resLat) Print(" (+/-") PrintR(latPrec)
Print("), ") PrintR(resLng) Print(" (+/-") PrintR(lngPrec)
PrintE(")") PutE()
RETURN
PROC Main()
Put(125) PutE() ;clear the screen
Test("51.433718","-0.214126",2)
Test("51.433718","-0.214126",9)
Test("57.64911","10.40744",11)
RETURN
- Output:
Screenshot from Atari 8-bit computer
Input: 51.433718, -0.214126, prec=2 Encode: gc Decode: 53.4375 (+/-2.8125), -5.625 (+/-5.625) Input: 51.433718, -0.214126, prec=9 Encode: gcpue5hp4 Decode: 51.433717 (+/-2.15E-05), -0.21412611 (+/-2.14577E-05) Input: 57.64911, 10.40744, prec=11 Encode: u4pruydqqvm Decode: 57.64911 (+/-1E-06), 10.40743967 (+/-6.7E-07)
Factor
Factor comes with the geohash
vocabulary. See the implementation here.
USING: formatting generalizations geohash io kernel sequences ;
: encode-geohash ( latitude longitude precision -- str )
[ >geohash ] [ head ] bi* ;
! Encoding
51.433718 -0.214126 2
51.433718 -0.214126 9
57.649110 10.407440 11
[
3dup encode-geohash
"geohash for [%f, %f], precision %2d = %s\n" printf
] 3 3 mnapply nl
! Decoding
"u4pruydqqvj" dup geohash>
"coordinates for %s ~= [%f, %f]\n" printf
- Output:
geohash for [51.433718, -0.214126], precision 2 = gc geohash for [51.433718, -0.214126], precision 9 = gcpue5hp4 geohash for [57.649110, 10.407440], precision 11 = u4pruydqqvj coordinates for u4pruydqqvj ~= [57.649110, 10.407439]
F#
// Create a geoHash String. Nigel Galloway: June 26th., 2020
let fG n g=Seq.unfold(fun(α,β)->let τ=(α+β)/2.0 in Some(if τ>g then (0,(α,τ)) else (1,(τ,b)))) n
let fLat, fLon = fG (-90.0,90.0), fG (-180.0,180.0)
let fN n g z=Seq.zip(fLat n)(fLon g)|>Seq.collect(fun(n,g)->seq{yield g;yield n})|>Seq.take(z*5)|>Seq.splitInto z
let fI=Array.fold2 (fun Σ α β->Σ+α*β) 0 [|16; 8; 4; 2; 1|]
let geoHash n g z=let N="0123456789bcdefghjkmnpqrstuvwxyz" in [|for τ in fN n g z do yield N.[fI τ]|] |> System.String
printfn "%s\n%s\n%s" (geoHash 51.433718 -0.214126 2) (geoHash 51.433718 -0.214126 9) (geoHash 57.64911 10.40744 11)
- Output:
gc gcpue5hp4 u4pruydqqvj
Go
package main
import (
"fmt"
"strings"
)
type Location struct{ lat, lng float64 }
func (loc Location) String() string { return fmt.Sprintf("[%f, %f]", loc.lat, loc.lng) }
type Range struct{ lower, upper float64 }
var gBase32 = "0123456789bcdefghjkmnpqrstuvwxyz"
func encodeGeohash(loc Location, prec int) string {
latRange := Range{-90, 90}
lngRange := Range{-180, 180}
var hash strings.Builder
hashVal := 0
bits := 0
even := true
for hash.Len() < prec {
val := loc.lat
rng := latRange
if even {
val = loc.lng
rng = lngRange
}
mid := (rng.lower + rng.upper) / 2
if val > mid {
hashVal = (hashVal << 1) + 1
rng = Range{mid, rng.upper}
if even {
lngRange = Range{mid, lngRange.upper}
} else {
latRange = Range{mid, latRange.upper}
}
} else {
hashVal <<= 1
if even {
lngRange = Range{lngRange.lower, mid}
} else {
latRange = Range{latRange.lower, mid}
}
}
even = !even
if bits < 4 {
bits++
} else {
bits = 0
hash.WriteByte(gBase32[hashVal])
hashVal = 0
}
}
return hash.String()
}
func main() {
locs := []Location{
{51.433718, -0.214126},
{51.433718, -0.214126},
{57.64911, 10.40744},
}
precs := []int{2, 9, 11}
for i, loc := range locs {
geohash := encodeGeohash(loc, precs[i])
fmt.Printf("geohash for %v, precision %-2d = %s\n", loc, precs[i], geohash)
}
}
- Output:
geohash for [51.433718, -0.214126], precision 2 = gc geohash for [51.433718, -0.214126], precision 9 = gcpue5hp4 geohash for [57.649110, 10.407440], precision 11 = u4pruydqqvj
Julia
const ch32 = "0123456789bcdefghjkmnpqrstuvwxyz"
const bool2ch = Dict(string(i-1, base=2, pad=5) => ch for (i, ch) in enumerate(ch32))
const ch2bool = Dict(v => k for (k, v) in bool2ch)
function bisect(val, mn, mx, bits)
mid = (mn + mx) / 2
if val < mid
bits <<= 1 # push 0
mx = mid # range lower half
else
bits = (bits << 1) | 1 # push 1
mn = mid # range upper half
end
return mn, mx, bits
end
function encoder(lat, lng, pre)
latmin, latmax = -90, 90
lngmin, lngmax = -180, 180
bits = Int128(0)
for i in 0:5*pre-1
if i % 2 != 0
# odd bit: bisect latitude
latmin, latmax, bits = bisect(lat, latmin, latmax, bits)
else
# even bit: bisect longitude
lngmin, lngmax, bits = bisect(lng, lngmin, lngmax, bits)
end
end
# Bits to characters
b = string(bits, base=2, pad=5*pre)
geo = [bool2ch[b[i*5+1:i*5+5]] for i in 0:pre-1]
return prod(geo)
end
function decoder(geo)
minmaxes, latlong = [[-90.0, 90.0], [-180.0, 180.0]], 2
for c in geo, bit in ch2bool[c]
minmaxes[latlong][bit == '1' ? 1 : 2] = sum(minmaxes[latlong]) / 2
latlong = 3 - latlong
end
return minmaxes
end
for ((lat, lng), pre) in [([51.433718, -0.214126], 2),
([51.433718, -0.214126], 9),
([57.64911, 10.40744] , 11),
([57.64911, 10.40744] , 22)]
encoded = encoder(lat, lng, pre)
println("encoder(lat=$lat, lng=$lng, pre=$pre) = ", encoded)
println("decoded = ", decoder(encoded))
end
- Output:
encoder(lat=51.433718, lng=-0.214126, pre=2) = gc decoded = [[50.625, 56.25], [-11.25, 0.0]] encoder(lat=51.433718, lng=-0.214126, pre=9) = gcpue5hp4 decoded = [[51.43369674682617, 51.43373966217041], [-0.21414756774902344, -0.21410465240478516]] encoder(lat=57.64911, lng=10.40744, pre=11) = u4pruydqqvj decoded = [[57.649109959602356, 57.64911130070686], [10.407439023256302, 10.40744036436081]] encoder(lat=57.64911, lng=10.40744, pre=22) = u4pruydqqvj8pr9yc27rjr decoded = [[57.64911, 57.64911000000001], [10.407439999999998, 10.407440000000008]]
Nim
We omitted the test with precision 22 as it exceeds the capacity of a 64 bits integer.
import math, strformat, strutils, sugar, tables
const
Ch32 = "0123456789bcdefghjkmnpqrstuvwxyz"
Bool2Ch = collect(initTable, for i, ch in Ch32: {i.toBin(5): ch})
Ch2Bool = collect(initTable, for k, v in Bool2Ch: {v: k})
func bisect(val, mn, mx: float; bits: int64): (float, float, int64) =
var
bits = bits
mn = mn
mx = mx
let mid = (mn + mx) * 0.5
if val < mid:
bits = bits shl 1 # push 0.
mx = mid # range lower half.
else:
bits = bits shl 1 or 1 # push 1.
mn = mid # range upper half.
result = (mn, mx, bits)
func encode(lat, long: float; pre: int64): string =
var
(latmin, latmax) = (-90.0, 90.0)
(longmin, longmax) = (-180.0, 180.0)
bits = 0i64
for i in 0..<(5 * pre):
if (i and 1) != 0:
# Odd bit: bisect latitude.
(latmin, latmax, bits) = bisect(lat, latmin, latmax, bits)
else:
# Even bit: bisect longitude.
(longmin, longmax, bits) = bisect(long, longmin, longmax, bits)
# Bits to characters.
let b = bits.toBin(pre * 5)
let geo = collect(newSeq, for i in 0..<pre: Bool2Ch[b[i*5..i*5+4]])
result = geo.join()
func decode(geo: string): array[2, array[2, float]] =
var latlong = 1
result = [[-90.0, 90.0], [-180.0, 180.0]]
for c in geo:
for bit in Ch2Bool[c]:
result[latlong][ord(bit != '1')] = sum(result[latlong]) * 0.5
latlong = 1 - latlong
when isMainModule:
for (lat, long, pre) in [(51.433718, -0.214126, 2),
(51.433718, -0.214126, 9),
(57.64911, 10.40744 , 11)]:
let encoded = encode(lat, long, pre)
echo &"encoder(lat = {lat}, long = {long}, pre = {pre}) = {encoded}"
echo &"decoded = {decode(encoded)}
- Output:
encoder(lat = 51.433718, long = -0.214126, pre = 2) = gc decoded = [[50.625, 56.25], [-11.25, 0.0]] encoder(lat = 51.433718, long = -0.214126, pre = 9) = gcpue5hp4 decoded = [[51.43369674682617, 51.43373966217041], [-0.2141475677490234, -0.2141046524047852]] encoder(lat = 57.64911, long = 10.40744, pre = 11) = u4pruydqqvj decoded = [[57.64910995960236, 57.64911130070686], [10.4074390232563, 10.40744036436081]]
Perl
use strict;
use warnings;
use feature 'say';
use List::AllUtils qw<sum max natatime>;
my @Geo32 = <0 1 2 3 4 5 6 7 8 9 b c d e f g h j k m n p q r s t u v w x y z>;
sub geo_encode {
my( $latitude, $longitude, $precision ) = @_;
my @coord = ($latitude, $longitude);
my @range = ([-90, 90], [-180, 180]);
my($which,$value) = (1, '');
while (length($value) < $precision * 5) {
my $mid = sum(@{$range[$which]}) / 2;
$value .= my $upper = $coord[$which] <= $mid ? 0 : 1;
$range[$which][$upper ? 0 : 1] = $mid;
$which = $which ? 0 : 1;
}
my $enc;
my $iterator = natatime 5, split '', $value;
while (my @n = $iterator->()) {
$enc .= $Geo32[ord pack 'B8', '000' . join '', @n]; # binary to decimal, very specific to the task
}
$enc
}
sub geo_decode {
my($geo) = @_;
my @range = ([-90, 90], [-180, 180]);
my(%Geo32,$c); $Geo32{$_} = $c++ for @Geo32;
my $which = 1;
for ( split '', join '', map { sprintf '%05b', $_ } @Geo32{split '', $geo} ) {
$range[$which][$_] = sum(@{$range[$which]}) / 2;
$which = $which ? 0 : 1;
}
@range
}
for ([51.433718, -0.214126, 2, 'Ireland, most of England and Wales, small part of Scotland'],
[51.433718, -0.214126, 9, "the umpire's chair on Center Court at Wimbledon"],
[51.433718, -0.214126, 17, 'likely an individual molecule of the chair'],
[57.649110, 10.407440, 11, 'Wikipedia test value - Råbjerg Mile in Denmark'],
[59.115800, -151.687312, 7, 'Perl Island, Alaska'],
[38.743586, -109.499336, 8, 'Delicate Arch, Utah'],
) {
my($lat, $long, $precision, $description) = @$_;
my $enc = geo_encode($lat, $long, $precision);
say "\n$lat, $long, $precision ($description):" .
"\ngeo-encoded: $enc\n" .
'geo-decoded: ' . join ', ',
map { sprintf("%.@{[max(3,$precision-3)]}f", ( -($$_[0] + $$_[1]) / 2)) .
' ± ' . sprintf('%.3e', (abs($$_[0] - $$_[1]) / 2))
} geo_decode($enc);}
- Output:
51.433718, -0.214126, 2 (Ireland, most of England and Wales, small part of Scotland): geo-encoded: gc geo-decoded: 53.438 ± 2.812e+00, -5.625 ± 5.625e+00 51.433718, -0.214126, 9 (the umpire's chair on Center Court at Wimbledon): geo-encoded: gcpue5hp4 geo-decoded: 51.433718 ± 2.146e-05, -0.214126 ± 2.146e-05 51.433718, -0.214126, 17 (likely an individual molecule of the chair): geo-encoded: gcpue5hp4ebnf8unc geo-decoded: 51.43371800000523 ± 2.046e-11, -0.21412600000303 ± 2.046e-11 57.64911, 10.40744, 11 (Wikipedia test value - Råbjerg Mile in Denmark): geo-encoded: u4pruydqqvj geo-decoded: 57.64911063 ± 6.706e-07, 10.40743969 ± 6.706e-07 59.1158, -151.687312, 7 (Perl Island, Alaska): geo-encoded: bds0k38 geo-decoded: 59.1154 ± 6.866e-04, -151.6875 ± 6.866e-04 38.743586, -109.499336, 8 (Delicate Arch, Utah): geo-encoded: 9wfhkm11 geo-decoded: 38.74354 ± 8.583e-05, -109.49919 ± 1.717e-04
Phix
with javascript_semantics constant gBase32 = "0123456789bcdefghjkmnpqrstuvwxyz" function encode_geohash(sequence location, integer precision) sequence r = {{-90,90},{-180,180}} -- lat/long integer ll = 2, -- " " " hashval = 0, bits = 0 string hash = "" while length(hash) < precision do atom mid = sum(r[ll])/2, gt = location[ll]>mid hashval = hashval*2+gt r[ll][2-gt] = mid bits += 1 if bits=5 then hash &= gBase32[hashval+1] {hashval,bits} = {0,0} end if ll = 3-ll -- (1 <==> 2) end while return hash end function function decode_geohash(string hash) -- output is {{lat_lo,lat_hi},{long_lo,long_hi}} sequence r = {{-90,90},{-180,180}} -- lat/long integer ll = 2 -- " " " for h=1 to length(hash) do string b = sprintf("%05b",find(hash[h],gBase32)-1) for it=1 to 5 do r[ll][2-(b[it]='1')] = sum(r[ll])/2 ll = 3-ll -- (1 <==> 2) end for end for return r end function sequence tests = {{{51.433718, -0.214126}, 2}, {{51.433718, -0.214126}, 9}, {{57.64911, 10.40744 }, 11}, {{57.64911, 10.40744 }, 22}} for i=1 to length(tests) do {sequence location, integer precision} = tests[i] string geohash = encode_geohash(location, precision) printf(1,"geohash for %v, precision %d = %s\n",{location, precision, geohash}) tests[i] = geohash end for printf(1,"\ndecode tests:\n") tests = append(tests,"ezs42") for i=1 to length(tests) do printf(1,"%-22s ==> %v\n",{tests[i],decode_geohash(tests[i])}) end for
- Output:
geohash for {51.433718,-0.214126}, precision 2 = gc geohash for {51.433718,-0.214126}, precision 9 = gcpue5hp4 geohash for {57.64911,10.40744}, precision 11 = u4pruydqqvj geohash for {57.64911,10.40744}, precision 22 = u4pruydqqvj8pr9yc27rjr decode tests: gc ==> {{50.625,56.25},{-11.25,0}} gcpue5hp4 ==> {{51.43369675,51.43373966},{-0.2141475677,-0.2141046524}} u4pruydqqvj ==> {{57.64910996,57.6491113},{10.40743902,10.40744036}} u4pruydqqvj8pr9yc27rjr ==> {{57.64911,57.64911},{10.40744,10.40744}} ezs42 ==> {{42.58300781,42.62695312},{-5.625,-5.581054688}}
Not surprisingly, given the area it covers, "gc" is not even accurate to one significant digit, but a precision of 9 is accurate to 5 or 6 significant decimal digits, 11 to 6 or 7 digits, and 22 exceeds the natural 10 sig digs of %v. Note that 32-bit gives a last character of 'q' for the precision 22 test, for obvious reasons. The above results are from using the 64-bit interpreter.
PicoLisp
(scl 20)
(setq *GBASE32 (chop "0123456789bcdefghjkmnpqrstuvwxyz"))
(de encode (Lat Lng Prec)
(let
(Base (circ (list -180.0 180.0) (list -90.0 90.0))
Curr (circ Lng Lat)
Lst
(make
(do (* 5 Prec)
(let
(B (++ Base)
C (++ Curr)
M (/ (sum prog B) 2) )
(if (> C M)
(prog (set B M) (link 1))
(set (cdr B) M)
(link 0) ) ) ) ) )
(pack
(make
(for (L Lst L)
(link
(get
*GBASE32
(inc (bin (pack (cut 5 'L)))) ) ) ) ) ) ) )
(println (encode 51.433718 -0.214126 2))
(println (encode 51.433718 -0.214126 9))
(println (encode 57.649110 10.407440 11))
- Output:
"gc" "gcpue5hp4" "u4pruydqqvj"
Python
ch32 = "0123456789bcdefghjkmnpqrstuvwxyz"
bool2ch = {f"{i:05b}": ch for i, ch in enumerate(ch32)}
ch2bool = {v : k for k, v in bool2ch.items()}
def bisect(val, mn, mx, bits):
mid = (mn + mx) / 2
if val < mid:
bits <<= 1 # push 0
mx = mid # range lower half
else:
bits = bits << 1 | 1 # push 1
mn = mid # range upper half
return mn, mx, bits
def encoder(lat, lng, pre):
latmin, latmax = -90, 90
lngmin, lngmax = -180, 180
bits = 0
for i in range(pre * 5):
if i % 2:
# odd bit: bisect latitude
latmin, latmax, bits = bisect(lat, latmin, latmax, bits)
else:
# even bit: bisect longitude
lngmin, lngmax, bits = bisect(lng, lngmin, lngmax, bits)
# Bits to characters
b = f"{bits:0{pre * 5}b}"
geo = (bool2ch[b[i*5: (i+1)*5]] for i in range(pre))
return ''.join(geo)
def decoder(geo):
minmaxes, latlong = [[-90.0, 90.0], [-180.0, 180.0]], True
for c in geo:
for bit in ch2bool[c]:
minmaxes[latlong][bit != '1'] = sum(minmaxes[latlong]) / 2
latlong = not latlong
return minmaxes
if __name__ == '__main__':
for (lat, lng), pre in [([51.433718, -0.214126], 2),
([51.433718, -0.214126], 9),
([57.64911, 10.40744] , 11),
([57.64911, 10.40744] , 22)]:
print("encoder(lat=%f, lng=%f, pre=%i) = %r"
% (lat, lng, pre, encoder(lat, lng, pre)))
- Output:
encoder(lat=51.433718, lng=-0.214126, pre=2) = 'gc' encoder(lat=51.433718, lng=-0.214126, pre=9) = 'gcpue5hp4' encoder(lat=57.649110, lng=10.407440, pre=11) = 'u4pruydqqvj' encoder(lat=57.649110, lng=10.407440, pre=22) = 'u4pruydqqvj8pr9yc27rjr'
Note: The precision can be increased but would need lattitude and longitude expressed with more precision than floats, e.g. fractions or decimals for more accurate results. (but the encoder function would not need changing due to Duck Typing).
Raku
Module based
Reference: Used this for verification.
#20200615 Raku programming solution
use Geo::Hash;
# task example 1 : Ireland, most of England and Wales, small part of Scotland
say geo-encode(51.433718e0, -0.214126e0, 2);
# task example 2 : the umpire's chair on Center Court at Wimbledon
say geo-encode(51.433718e0, -0.214126e0, 9);
# Lake Raku is an artificial lake in Tallinn, Estonia
# https://goo.gl/maps/MEBXXhiFbN8WMo5z8
say geo-encode(59.358639e0, 24.744778e0, 4);
# Village Raku is a development committee in north-western Nepal
# https://goo.gl/maps/33s7k2h3UrHCg8Tb6
say geo-encode(29.2021188e0, 81.5324561e0, 4);
- Output:
gc gcpue5hp4 ud99 tv1y
Roll your own
Alternately, a roll-your-own version that will work with any Real coordinate, not just floating point values, and thus can return ridiculous precision. The geo-decode routine returns the range in which the actual value will be found; converted here to the mid-point with the interval size. Probably better to specify an odd precision so the error interval ends up the same for both latitude and longitude.
my @Geo32 = <0 1 2 3 4 5 6 7 8 9 b c d e f g h j k m n p q r s t u v w x y z>;
sub geo-encode ( Rat(Real) $latitude, Rat(Real) $longitude, Int $precision = 9 ) {
my @coord = $latitude, $longitude;
my @range = [-90, 90], [-180, 180];
my $which = 1;
my $value = '';
while $value.chars < $precision * 5 {
my $mid = @range[$which].sum / 2;
$value ~= my $upper = +(@coord[$which] > $mid);
@range[$which][not $upper] = $mid;
$which = not $which;
}
@Geo32[$value.comb(5)».parse-base(2)].join;
}
sub geo-decode ( Str $geo ) {
my @range = [-90, 90], [-180, 180];
my $which = 1;
my %Geo32 = @Geo32.antipairs;
for %Geo32{$geo.comb}».fmt('%05b').join.comb {
@range[$which][$_] = @range[$which].sum / 2;
$which = not $which;
}
@range
}
# TESTING
for 51.433718, -0.214126, 2, # Ireland, most of England and Wales, small part of Scotland
51.433718, -0.214126, 9, # the umpire's chair on Center Court at Wimbledon
51.433718, -0.214126, 17, # likely an individual molecule of the chair
57.649110, 10.407440, 11, # Wikipedia test value - Råbjerg Mile in Denmark
59.358639, 24.744778, 7, # Lake Raku in Estonia
29.2021188, 81.5324561, 7 # Village Raku in Nepal
-> $lat, $long, $precision {
say "$lat, $long, $precision:\ngeo-encoded: ",
my $enc = geo-encode $lat, $long, $precision;
say 'geo-decoded: ', geo-decode($enc).map( {-.sum/2 ~ ' ± ' ~
(abs(.[0]-.[1])/2).Num.fmt('%.3e')} ).join(', ') ~ "\n";
}
51.433718, -0.214126, 2: geo-encoded: gc geo-decoded: 53.4375 ± 2.813e+00, -5.625 ± 5.625e+00 51.433718, -0.214126, 9: geo-encoded: gcpue5hp4 geo-decoded: 51.4337182 ± 2.146e-05, -0.21412611 ± 2.146e-05 51.433718, -0.214126, 17: geo-encoded: gcpue5hp4ebnf8unc geo-decoded: 51.43371800000523 ± 2.046e-11, -0.21412600000303 ± 2.046e-11 57.64911, 10.40744, 11: geo-encoded: u4pruydqqvj geo-decoded: 57.64911063 ± 6.706e-07, 10.407439694 ± 6.706e-07 59.358639, 24.744778, 7: geo-encoded: ud99ejf geo-decoded: 59.358444 ± 6.866e-04, 24.744644 ± 6.866e-04 29.2021188, 81.5324561, 7: geo-encoded: tv1ypk4 geo-decoded: 29.202347 ± 6.866e-04, 81.532974 ± 6.866e-04
Swift
let base32 = "0123456789bcdefghjkmnpqrstuvwxyz" // no "a", "i", "l", or "o"
extension String {
subscript(i: Int) -> String {
String(self[index(startIndex, offsetBy: i)])
}
}
struct Coordinate {
var latitude: Double
var longitude: Double
func toString() -> String {
var latitudeHemisphere = ""
var longitudeHemisphere = ""
latitudeHemisphere = latitude < 0 ? " S" : " N"
longitudeHemisphere = longitude < 0 ? " W" : " E"
return "\(abs(latitude))\(latitudeHemisphere), \(abs(longitude))\(longitudeHemisphere)"
}
}
func encodeGeohash (for coordinate: Coordinate, withPrecision precision: Int = 9) -> String {
var latitudeRange = -90.0...90.0
var longitudeRange = -180...180.0
var hash = ""
var hashVal = 0
var bits = 0
var even = true
while (hash.count < precision) {
let val = even ? coordinate.longitude: coordinate.latitude
var range = even ? longitudeRange : latitudeRange
let mid = (range.lowerBound + range.upperBound) / 2
if (val > mid) {
hashVal = (hashVal << 1) + 1
range = mid...range.upperBound
if even { longitudeRange = mid...longitudeRange.upperBound }
else { latitudeRange = mid...latitudeRange.upperBound }
} else {
hashVal = (hashVal << 1) + 0
range = range.lowerBound...mid
if even { longitudeRange = longitudeRange.lowerBound...mid }
else { latitudeRange = latitudeRange.lowerBound...mid }
}
even = !even
if (bits < 4) {
bits += 1
} else {
bits = 0
hash += base32[hashVal]
hashVal = 0
}
}
return hash
}
let coordinate1 = Coordinate(latitude: 51.433718, longitude: -0.214126)
let coordinate2 = Coordinate(latitude: 57.649110, longitude: 10.407440)
print ("Geohash for: \(coordinate1.toString()), precision = 5 : \(encodeGeohash(for: coordinate, withPrecision: 5))")
print ("Geohash for: \(coordinate1.toString()), precision = 9 : \(encodeGeohash(for: coordinate))")
print ("Geohash for: \(coordinate2.toString()), precision = 11 : \(encodeGeohash(for: coordinate, withPrecision: 11))")
- Output:
Geohash for: 51.433718 N, 0.214126 W, precision = 5 : gcpue Geohash for: 51.433718 N, 0.214126 W, precision = 9 : gcpue5hp4 Geohash for: 57.64911 N, 10.40744 E, precision = 11 : u4pruydqqvj
Vlang
struct Location {
lat f64
lng f64
}
fn (loc Location) str() string { return "[$loc.lat, $loc.lng]" }
struct Range {
lower f64
upper f64
}
const g_base32 = "0123456789bcdefghjkmnpqrstuvwxyz"
fn encode_geo_hash(loc Location, prec int) string {
mut lat_range := Range{-90, 90}
mut lng_range := Range{-180, 180}
mut hash := ''
mut hash_val := u32(0)
mut bits := 0
mut even := true
for hash.len < prec {
mut val := loc.lat
mut rng := lat_range
if even {
val = loc.lng
rng = lng_range
}
mid := (rng.lower + rng.upper) / 2
if val > mid {
hash_val = (hash_val << 1) + 1
rng = Range{mid, rng.upper}
if even {
lng_range = Range{mid, lng_range.upper}
} else {
lat_range = Range{mid, lat_range.upper}
}
} else {
hash_val <<= 1
if even {
lng_range = Range{lng_range.lower, mid}
} else {
lat_range = Range{lat_range.lower, mid}
}
}
even = !even
if bits < 4 {
bits++
} else {
bits = 0
hash+=g_base32[hash_val..hash_val+1]
hash_val = u32(0)
}
}
return hash.str()
}
fn main() {
locs := [Location{51.433718, -0.214126},
Location{51.433718, -0.214126},
Location{57.64911, 10.40744},
]
precs := [2, 9, 11]
for i, loc in locs {
geohash := encode_geo_hash(loc, precs[i])
println("geohash for $loc, precision ${precs[i]:-2} = $geohash")
}
}
- Output:
geohash for [51.433718, -0.214126], precision 2 = gc geohash for [51.433718, -0.214126], precision 9 = gcpue5hp4 geohash for [57.649110, 10.407440], precision 11 = u4pruydqqvj
Wren
import "/fmt" for Fmt
var gBase32 = "0123456789bcdefghjkmnpqrstuvwxyz"
var encodeGeohash = Fn.new { |location, prec|
var latRange = -90..90
var lngRange = -180..180
var hash = ""
var hashVal = 0
var bits = 0
var even = true
while (hash.count < prec) {
var val = even ? location[1] : location[0]
var rng = even ? lngRange : latRange
var mid = (rng.from + rng.to) / 2
if (val > mid) {
hashVal = hashVal*2 + 1
rng = mid..rng.to
if (even) lngRange = mid..lngRange.to else latRange = mid..latRange.to
} else {
hashVal = hashVal * 2
if (even) lngRange = lngRange.from..mid else latRange = latRange.from..mid
}
even = !even
if (bits < 4) {
bits = bits + 1
} else {
bits = 0
hash = hash + gBase32[hashVal]
hashVal = 0
}
}
return hash
}
var data = [
[[51.433718, -0.214126], 2],
[[51.433718, -0.214126], 9],
[[57.64911, 10.40744 ], 11]
]
for (d in data) {
var geohash = encodeGeohash.call(d[0], d[1])
var loc = "[%(Fmt.f(9, d[0][0], 6)), %(Fmt.f(9, d[0][1], 6))]"
System.print("geohash for %(loc), precision %(Fmt.d(-2, d[1])) = %(geohash)")
}
- Output:
geohash for [51.433718, -0.214126], precision 2 = gc geohash for [51.433718, -0.214126], precision 9 = gcpue5hp4 geohash for [57.649110, 10.407440], precision 11 = u4pruydqqvj