\
\ Purpose: Number recognizers based on Forth CORE (only?)
\
\ Author: Matthias Trute
\ Date: Oct 10, 2016
\ License: Public Domain
\
\ not really smart but portable code, tested with old gforth's and vfxlin's
\
decimal
' noop :NONAME POSTPONE LITERAL ; DUP recognizer: r:num
' noop :NONAME POSTPONE 2LITERAL ; DUP recognizer: r:dnum
\
\ check for the 'c' syntax for single
\ characters.
\
: rec:char ( addr len -- n r:num | r:fail )
3 = if \ a three character string
dup c@ [char] ' = if \ that starts with a ' (tick)
dup 2 + c@ [char] ' = if \ and ends with a ' (tick)
1+ c@ r:num exit
then
then
then
drop r:fail
;
\
\ helper words for number recognizers
\
\ set BASE according the the character at addr
\ return string is stripped of it if found.
\ #: 10, $: 16, %: 2, &: 10 (again)
create num-bases 10 , 16 , 2 , 10 ,
: set-base ( addr len -- addr' len' )
over c@ 35 - dup 0 4 within if
cells num-bases + @ base ! 1 /string
else
drop
then
;
\ check for a character. return string is
\ without it if found. f is true if found.
: skip-char? ( addr len c -- addr' len' f)
>r over c@ r> = dup >r
if 1 /string then r>
;
: -sign? ( addr len -- addr' len' f )
[char] - skip-char?
;
: +sign ( addr len -- addr' len' )
[char] + skip-char? drop
;
\ allows $- and -$ combinations. skip +
\ f is true is - sign is found (and stripped off)
: base-and-sign? ( addr len -- addr' len' f)
set-base +sign -sign? >r set-base r>
;
\ a factor the recognizers below.
: (rec:number) ( addr len -- d addr' len' f )
base @ >r \ save BASE
base-and-sign? >r \ handle prefix and sign characters
2>r 0 0 2r> >number \ do the actual conversion
r> r> base ! \ restore BASE and sign information
;
\
\ check for double number input
\
: rec:dnum ( addr len -- d r:dnum | r:fail )
\ simple syntax check: last character in addr/len is a dot . ?
2dup + 1- c@ [char] . = if
1- \ strip trailing dot
(rec:number) >r \ do the dirty work
\ a number and only a number?
nip if
2drop r> drop r:fail
else
r> if dnegate then r:dnum
then
else
2drop r:fail \ no, it cannot be a double cell number.
then
;
\
\ check for single cell number input
\
: rec:snum ( addr len -- n r:num | rfail )
(rec:number) >r
nip if
2drop r> drop r:fail
else
\ a "d" with a non-empty upper cell cannot be an "n"
if r> drop r:fail
else r> if negate then r:num
then
then
;
\ combine them
3 RECOGNIZER VALUE recstack:numbers
' rec:char ' rec:dnum ' rec:snum 3 recstack:numbers SET-RECOGNIZERS
: REC:NUM ( addr len -- n R:NUM | d R:DNUM | R:FAIL )
recstack:numbers DO-RECOGNIZER
;
\
\ ------------- Unit tests for all of the above ----------
\
VERBOSE ON
VARIABLE OLD-BASE BASE @ OLD-BASE !
T{ S" 'z'" rec:char -> char z r:num }T
T{ S" 'z '" rec:char -> r:fail }T
T{ S" 1234." rec:dnum -> 1234. r:dnum }T
T{ S" -1234." rec:dnum -> -1234. r:dnum }T
T{ S" +1234." rec:dnum -> 1234. r:dnum }T
T{ S" $1234." rec:dnum -> $1234. r:dnum }T
T{ S" $-1234." rec:dnum -> $-1234. r:dnum }T
T{ S" +$1234." rec:dnum -> $1234. r:dnum }T
T{ S" -$1234." rec:dnum -> $-1234. r:dnum }T
T{ S" %-10010110." rec:dnum -> -150. r:dnum }T
T{ S" %10010110." rec:dnum -> 150. r:dnum }T
T{ S" 1234" rec:dnum -> r:fail }T
T{ S" ABCXYZ" rec:dnum -> r:fail }T
T{ S" 1234" rec:snum -> 1234 r:num }T
T{ S" -1234" rec:snum -> -1234 r:num }T
T{ S" $1234" rec:snum -> $1234 r:num }T
T{ S" $-1234" rec:snum -> $-1234 r:num }T
T{ S" #1234" rec:snum -> 1234 r:num }T
T{ S" %-10010110" rec:snum -> -150 r:num }T
T{ S" %10010110" rec:snum -> 150 r:num }T
T{ S" #123a" rec:snum -> r:fail }T
T{ S" 1234." rec:snum -> r:fail }T
T{ S" ABCXYZ" rec:snum -> r:fail }T
T{ S" 1234" REC:NUM -> 1234 R:NUM }T
T{ S" 1234." REC:NUM -> 1234. R:DNUM }T
T{ S" %-10010110" rec:num -> -150 r:num }T
T{ S" %10010110" rec:num -> 150 r:num }T
T{ S" 'Z'" REC:NUM -> char Z R:NUM }T
T{ S" ABCXYZ" REC:NUM -> R:FAIL }T
\ check whether BASE is unchanged
T{ BASE @ OLD-BASE @ = -> -1 }T