! Copyright (C) 2004, 2008 Slava Pestov. ! See http://factorcode.org/license.txt for BSD license. USING: kernel math.private namespaces sequences strings arrays combinators splitting math assocs make ; IN: math.parser : digit> ( ch -- n ) H{ { CHAR: 0 0 } { CHAR: 1 1 } { CHAR: 2 2 } { CHAR: 3 3 } { CHAR: 4 4 } { CHAR: 5 5 } { CHAR: 6 6 } { CHAR: 7 7 } { CHAR: 8 8 } { CHAR: 9 9 } { CHAR: A 10 } { CHAR: B 11 } { CHAR: C 12 } { CHAR: D 13 } { CHAR: E 14 } { CHAR: F 15 } { CHAR: a 10 } { CHAR: b 11 } { CHAR: c 12 } { CHAR: d 13 } { CHAR: e 14 } { CHAR: f 15 } } at ; : string>digits ( str -- digits ) [ digit> ] { } map-as ; : digits>integer ( seq radix -- n ) 0 swap [ swapd * + ] curry reduce ; DEFER: base> ) ( str -- n ) radix get base> ; : whole-part ( str -- m n ) sign split1 >r (base>) r> dup [ (base>) ] [ drop 0 swap ] if ; : string>ratio ( str -- a/b ) "-" ?head dup negative? set swap "/" split1 (base>) >r whole-part r> 3dup and and [ / + swap [ neg ] when ] [ 2drop 2drop f ] if ; : valid-digits? ( seq -- ? ) { { [ dup empty? ] [ drop f ] } { [ f over memq? ] [ drop f ] } [ radix get [ < ] curry all? ] } cond ; : string>integer ( str -- n/f ) "-" ?head swap string>digits dup valid-digits? [ radix get digits>integer swap [ neg ] when ] [ 2drop f ] if ; PRIVATE> : base> ( str radix -- n/f ) [ CHAR: / over member? [ string>ratio ] [ CHAR: . over member? [ string>float ] [ string>integer ] if ] if ] with-radix ; : string>number ( str -- n/f ) 10 base> ; : bin> ( str -- n/f ) 2 base> ; : oct> ( str -- n/f ) 8 base> ; : hex> ( str -- n/f ) 16 base> ; : >digit ( n -- ch ) dup 10 < [ CHAR: 0 + ] [ 10 - CHAR: a + ] if ; : positive>base ( num radix -- str ) dup 1 <= [ "Invalid radix" throw ] when [ dup 0 > ] swap [ /mod >digit ] curry [ ] "" produce-as nip dup reverse-here ; inline PRIVATE> GENERIC# >base 1 ( n radix -- str ) base) ( n -- str ) radix get positive>base ; PRIVATE> M: integer >base over 0 = [ 2drop "0" ] [ over 0 > [ positive>base ] [ [ neg ] dip positive>base CHAR: - prefix ] if ] if ; M: ratio >base [ dup 0 < negative? set abs 1 /mod [ dup zero? [ drop "" ] [ (>base) sign append ] if ] [ [ numerator (>base) ] [ denominator (>base) ] bi "/" swap 3append ] bi* append negative? get [ CHAR: - prefix ] when ] with-radix ; : fix-float ( str -- newstr ) { { [ CHAR: e over member? ] [ "e" split1 >r fix-float "e" r> 3append ] } { [ CHAR: . over member? ] [ ] } [ ".0" append ] } cond ; M: float >base drop { { [ dup fp-nan? ] [ drop "0.0/0.0" ] } { [ dup 1.0/0.0 = ] [ drop "1.0/0.0" ] } { [ dup -1.0/0.0 = ] [ drop "-1.0/0.0" ] } { [ dup double>bits HEX: 8000000000000000 = ] [ drop "-0.0" ] } [ float>string fix-float ] } cond ; : number>string ( n -- str ) 10 >base ; : >bin ( n -- str ) 2 >base ; : >oct ( n -- str ) 8 >base ; : >hex ( n -- str ) 16 >base ; : # ( n -- ) number>string % ;