;; A Geohash implementation for Guile scheme ;; This is a port of the code from https://github.com/chrisveness/latlon-geohash/tree/master (define-module (anarres geohash) #:use-module (ice-9 receive) #:use-module (ice-9 match) #:export (encode decode bounds adjacent neighbours)) (define max-precision 12) (define base32 "0123456789bcdefghjkmnpqrstuvwxyz") (define* (encode lat lon #:key (precision 12)) (define desired-precision (min precision max-precision)) (let loop ((lat-min -90.0) (lat-max 90.0) (lon-min -180.0) (lon-max 180.0) (even-bit? #t) (idx 0) (bit 0) (result '())) (cond ((= desired-precision (length result)) (reverse-list->string result)) ((= bit 5) (loop lat-min lat-max lon-min lon-max even-bit? 0 0 (cons (string-ref base32 idx) result))) (even-bit? (let ((lon-mid (/ (+ lon-min lon-max) 2))) (if (>= lon lon-mid) (loop lat-min lat-max lon-mid lon-max (not even-bit?) (1+ (* 2 idx)) (1+ bit) result) (loop lat-min lat-max lon-min lon-mid (not even-bit?) (* 2 idx) (1+ bit) result)))) (else (let ((lat-mid (/ (+ lat-min lat-max) 2))) (if (>= lat lat-mid) (loop lat-mid lat-max lon-min lon-max (not even-bit?) (1+ (* 2 idx)) (1+ bit) result) (loop lat-min lat-mid lon-min lon-max (not even-bit?) (* 2 idx) (1+ bit) result))))))) (define (bounds s) (let loop ((xs (map (lambda (c) (string-index base32 c)) (string->list s))) (n 4) (lat-min -90.0) (lat-max 90.0) (lon-min -180.0) (lon-max 180.0) (even-bit? #t)) (cond ((nil? xs) (values lat-min lat-max lon-min lon-max)) ((< n 0) (loop (cdr xs) 4 lat-min lat-max lon-min lon-max even-bit?)) (even-bit? (let ((lon-mid (/ (+ lon-min lon-max) 2))) (if (logbit? n (car xs)) (loop xs (1- n) lat-min lat-max lon-mid lon-max (not even-bit?)) (loop xs (1- n) lat-min lat-max lon-min lon-mid (not even-bit?))))) (else (let ((lat-mid (/ (+ lat-min lat-max) 2))) (if (logbit? n (car xs)) (loop xs (1- n) lat-mid lat-max lon-min lon-max (not even-bit?)) (loop xs (1- n) lat-min lat-mid lon-min lon-max (not even-bit?)))))))) (define (round-to-n-decimal-places x n) (let* ((whole-part (truncate x)) (fractional-part (- x whole-part)) (multiplier (expt 10 n)) (rounded-frac (round (* fractional-part multiplier)))) (+ whole-part (/ rounded-frac multiplier)))) (define (decode s) (receive (lat-min lat-max lon-min lon-max) (bounds s) (let ((lat (/ (+ lat-min lat-max) 2)) (lat-places (truncate (- 2 (log10 (- lat-max lat-min))))) (lon (/ (+ lon-min lon-max) 2)) (lon-places (truncate (- 2 (log10 (- lon-max lon-min)))))) (values (round-to-n-decimal-places lat lat-places) (round-to-n-decimal-places lon lon-places))))) (define (neighbour direction geohash-length) (match (list direction (even? geohash-length)) (('n #t) "p0r21436x8zb9dcf5h7kjnmqesgutwvy") (('n #f) "bc01fg45238967deuvhjyznpkmstqrwx") (('s #t) "14365h7k9dcfesgujnmqp0r2twvyx8zb") (('s #f) "238967debc01fg45kmstqrwxuvhjyznp") (('e #t) "bc01fg45238967deuvhjyznpkmstqrwx") (('e #f) "p0r21436x8zb9dcf5h7kjnmqesgutwvy") (('w #t) "238967debc01fg45kmstqrwxuvhjyznp") (('w #f) "14365h7k9dcfesgujnmqp0r2twvyx8zb"))) (define (border direction geohash-length) (match (list direction (even? geohash-length)) (('n #t) "prxz") (('n #f) "bcfguvyz") (('s #t) "028b") (('s #f) "0145hjnp") (('e #t) "bcfguvyz") (('e #f) "prxz") (('w #t) "0145hjnp") (('w #f) "028b"))) (define (adjacent s direction) (let* ((n (string-length s)) (last-char (string-ref s (1- n))) (nbr-idx (string-index (neighbour direction n) last-char)) (parent (if (and (> n 1) (string-index (border direction n) last-char)) (adjacent (substring s 0 (1- n)) direction) (substring s 0 (1- n))))) (string-append parent (string (string-ref base32 nbr-idx))))) (define (neighbours s) (list (cons 'n (adjacent s 'n)) (cons 'ne (adjacent (adjacent s 'n) 'e)) (cons 'e (adjacent s 'e)) (cons 'se (adjacent (adjacent s 's) 'e)) (cons 's (adjacent s 's)) (cons 'sw (adjacent (adjacent s 's) 'w)) (cons 'w (adjacent s 'w)) (cons 'nw (adjacent (adjacent s 'n) 'w))))