Non-decimal radices/Convert: Difference between revisions
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=={{header|C#}}== |
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<lang CSharp> |
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public static class BaseConverter { |
public static class BaseConverter { |
Revision as of 12:56, 16 May 2014
You are encouraged to solve this task according to the task description, using any language you may know.
Number base conversion is when you express a stored integer in an integer base, such as in octal (base 8) or binary (base 2). It also is involved when you take a string representing a number in a given base and convert it to the stored integer form. Normally, a stored integer is in binary, but that's typically invisible to the user, who normally enters or sees stored integers as decimal.
Write a function (or identify the built-in function) which is passed a non-negative integer to convert, and another integer representing the base. It should return a string containing the digits of the resulting number, without leading zeros except for the number 0 itself. For the digits beyond 9, one should use the lowercase English alphabet, where the digit a = 9+1, b = a+1, etc. The decimal number 26 expressed in base 16 would be 1a, for example.
Write a second function which is passed a string and an integer base, and it returns an integer representing that string interpreted in that base.
The programs may be limited by the word size or other such constraint of a given language. There is no need to do error checking for negatives, bases less than 2, or inappropriate digits.
ACL2
<lang Lisp>(defun digit-value (chr)
(cond ((and (char>= chr #\0) (char<= chr #\9)) (- (char-code chr) (char-code #\0))) ((and (char>= chr #\A) (char<= chr #\Z)) (+ (- (char-code chr) (char-code #\A)) 10)) ((and (char>= chr #\a) (char<= chr #\z)) (+ (- (char-code chr) (char-code #\a)) 10))))
(defun value-digit (n)
(if (< n 10) (code-char (+ n (char-code #\0))) (code-char (+ (- n 10) (char-code #\A)))))
(defun num-from-cs (cs base)
(if (endp cs) 0 (+ (digit-value (first cs)) (* base (num-from-cs (rest cs) base)))))
(defun parse-num (str base)
(num-from-cs (reverse (coerce str 'list)) base))
(include-book "arithmetic-3/top" :dir :system)
(defun num-to-cs (num base)
(if (or (zp num) (zp base) (= base 1)) nil (cons (value-digit (mod num base)) (num-to-cs (floor num base) base))))
(defun show-num (num base)
(coerce (reverse (num-to-cs num base)) 'string))</lang>
Ada
Ada provides built-in capability to convert between all bases from 2 through 16. This task requires conversion for bases up to 36. The following program demonstrates such a conversion using an iterative solution. <lang ada>with Ada.Text_Io; use Ada.Text_Io; with Ada.Strings.Fixed; With Ada.Strings.Unbounded;
procedure Number_Base_Conversion is
Max_Base : constant := 36; subtype Base_Type is Integer range 2..Max_Base; Num_Digits : constant String := "0123456789abcdefghijklmnopqrstuvwxyz"; Invalid_Digit : exception; function To_Decimal(Value : String; Base : Base_Type) return Integer is use Ada.Strings.Fixed; Result : Integer := 0; Decimal_Value : Integer; Radix_Offset : Natural := 0; begin for I in reverse Value'range loop Decimal_Value := Index(Num_Digits, Value(I..I)) - 1; if Decimal_Value < 0 then raise Invalid_Digit; end if; Result := Result + (Base**Radix_Offset * Decimal_Value); Radix_Offset := Radix_Offset + 1; end loop; return Result; end To_Decimal; function To_Base(Value : Natural; Base : Base_Type) return String is use Ada.Strings.Unbounded; Result : Unbounded_String := Null_Unbounded_String; Temp : Natural := Value; Base_Digit : String(1..1); begin if Temp = 0 then return "0"; end if; while Temp > 0 loop Base_Digit(1) := Num_Digits((Temp mod Base) + 1); if Result = Null_Unbounded_String then Append(Result, Base_Digit); else Insert(Source => Result, Before => 1, New_Item => Base_Digit); end if; Temp := Temp / Base; end loop; return To_String(Result); end To_Base;
begin
Put_Line("26 converted to base 16 is " & To_Base(26, 16)); Put_line("1a (base 16) is decimal" & Integer'image(To_Decimal("1a", 16)));
end Number_Base_Conversion;</lang>
Aime
<lang aime>o_text(bfxa(0, 0, 16, 1000000)); o_byte('\n'); o_text(bfxa(0, 0, 5, 1000000)); o_byte('\n'); o_text(bfxa(0, 0, 2, 1000000)); o_byte('\n');
o_integer(alpha("f4240", 16)); o_byte('\n'); o_integer(alpha("224000000", 5)); o_byte('\n'); o_integer(alpha("11110100001001000000", 2)); o_byte('\n');</lang>
ALGOL 68
Built in or standard distribution routines
The formatted transput in ALGOL 68 uses the format type (mode). This format type has many similarities with modern regular expressions and can be used to convert string patterns to and from many of the built in types (modes) in ALGOL 68. Here is an example converting a numbers base.
<lang algol68>INT base = 16, from dec = 26; BITS to bits;
FORMAT hex repr = $n(base)r2d$;
FILE f; STRING str;
associate(f, str); putf(f, (hex repr, BIN from dec)); print(("Hex: ",str, new line));
reset(f); getf(f, (hex repr, to bits)); print(("Int: ",ABS to bits, new line))</lang> Output:
Hex: 1a Int: +26
Note that the only conversions "officially" available are for the bases 2r, 4r, 8r and 16r. But ALGOL 68G allows formatting for all numbers in the range 2r to 16r.
Implementation example
Handles signed and unsigned numbers from all bases.
<lang algol68>STRING numeric alpha = "0123456789abcdefghijklmnopqrstuvwxyz";
PROC raise value error = ([]STRING args)VOID: (
put(stand error, "Value error"); STRING sep := ": "; FOR index TO UPB args - 1 DO put(stand error, (sep, args[index])); sep:=", " OD; new line(stand error); stop
);
PROC base n = (INT num, base)STRING: (
PROC base n = (INT num, base)STRING: ( num = 0 | "" | base n(num OVER base, base) + numeric alpha[@0][num MOD base]); ( num = 0 | "0" |: num > 0 | base n(num, base) | "-" + base n(-num, base) )
);
PROC unsigned int = (STRING repr, INT base)INT:
IF UPB repr < LWB repr THEN 0 ELSE INT pos; IF NOT char in string(repr[UPB repr], pos, numeric alpha) THEN raise value error("CHAR """+repr[UPB repr]+""" not valid") FI; unsigned int(repr[:UPB repr-1], base) * base + pos - 1 FI
PROC int = (STRING repr, INT base)INT:
( repr[LWB repr]="-" | -unsigned int(repr[LWB repr + 1:], base) | unsigned int(repr, base) );
[]INT test = (-256, -255, -26, -25, 0, 25, 26, 255, 256); FOR index TO UPB test DO
INT k = test[index]; STRING s = base n(k,16); # returns the string 1a # INT i = int(s,16); # returns the integer 26 # print((k," => ", s, " => ", i, new line))
OD</lang> Output:
-256 => -100 => -256 -255 => -ff => -255 -26 => -1a => -26 -25 => -19 => -25 +0 => 0 => +0 +25 => 19 => +25 +26 => 1a => +26 +255 => ff => +255 +256 => 100 => +256
Other libraries or implementation specific extensions
As of February 2009 no open source libraries to do this task have been located.
AutoHotkey
<lang AutoHotkey>MsgBox % number2base(200, 16) ; 12 MsgBox % parse(200, 16) ; 512
number2base(number, base) {
While, base < digit := floor(number / base) { result := mod(number, base) . result number := digit } result := digit . result Return result
}
parse(number, base) {
result = 0 pos := StrLen(number) - 1 Loop, Parse, number { result := ((base ** pos) * A_LoopField) + result base -= 1 } Return result
}</lang> alternate implementation contributed by Laszlo on the ahk forum <lang AutoHotkey>MsgBox % ToBase(29,3) MsgBox % ToBase(255,16)
MsgBox % FromBase("100",8) MsgBox % FromBase("ff",16)
ToBase(n,b) { ; n >= 0, 1 < b <= 36
Return (n < b ? "" : ToBase(n//b,b)) . ((d:=mod(n,b)) < 10 ? d : Chr(d+87))
}
FromBase(s,b) { ; convert base b number s=strings of 0..9,a..z, to AHK number
Return (L:=StrLen(s))=0 ? "":(L>1 ? FromBase(SubStr(s,1,L-1),b)*b:0) + ((c:=Asc(SubStr(s,0)))>57 ? c-87:c-48)
}</lang>
AWK
<lang awk>function strtol(str, base) {
symbols = "0123456789abcdefghijklmnopqrstuvwxyz" res = 0 str = tolower(str) for(i=1; i < length(str); i++) { res += index(symbols, substr(str, i, 1)) - 1 res *= base } res += index(symbols, substr(str, length(str), 1)) - 1 return res
}
function ltostr(num, base) {
symbols = "0123456789abcdefghijklmnopqrstuvwxyz" res = "" do { res = substr(symbols, num%base + 1, 1) res num = int(num/base) } while ( num != 0 ) return res
}
BEGIN {
print strtol("7b", 16) print ltostr(123, 16)
}</lang>
BBC BASIC
<lang bbcbasic> PRINT " 0 (decimal) -> " FNtobase(0, 16) " (base 16)"
PRINT " 26 (decimal) -> " FNtobase(26, 16) " (base 16)" PRINT "383 (decimal) -> " FNtobase(383, 16) " (base 16)" PRINT " 26 (decimal) -> " FNtobase(26, 2) " (base 2)" PRINT "383 (decimal) -> " FNtobase(383, 2) " (base 2)" PRINT " 1a (base 16) -> " ;FNfrombase("1a", 16) " (decimal)" PRINT " 1A (base 16) -> " ;FNfrombase("1A", 16) " (decimal)" PRINT "17f (base 16) -> " ;FNfrombase("17f", 16) " (decimal)" PRINT "101111111 (base 2) -> " ;FNfrombase("101111111", 2) " (decimal)" END DEF FNtobase(N%, B%) LOCAL D%,A$ REPEAT D% = N% MOD B% N% DIV= B% A$ = CHR$(48 + D% - 39*(D%>9)) + A$ UNTIL N% = FALSE =A$ DEF FNfrombase(A$, B%) LOCAL N% REPEAT N% *= B% N% += ASC(A$) - 48 + 7*(ASCA$>64) + 32*(ASCA$>96) A$ = MID$(A$,2) UNTIL A$ = "" = N%</lang>
Output:
0 (decimal) -> 0 (base 16) 26 (decimal) -> 1a (base 16) 383 (decimal) -> 17f (base 16) 26 (decimal) -> 11010 (base 2) 383 (decimal) -> 101111111 (base 2) 1a (base 16) -> 26 (decimal) 1A (base 16) -> 26 (decimal) 17f (base 16) -> 383 (decimal) 101111111 (base 2) -> 383 (decimal)
Bracmat
<lang bracmat> ( display
= . !arg:<10 | !arg:<36&chr$(asc$a+!arg+-10) | "Base too big" )
& ( base
= n b . !arg:(?n.?b) & !n:<!b & ( !n:~<0&display$!n | NOTSUPPORTED ) | base$(div$(!n.!b).!b) display$(mod$(!n.!b)) )
& whl
' ( put $ "Enter non-negative integer in decimal notation (or something else to stop):" & get':~/#>-1:?n & put$"Enter base (less than 37):" & get$:~/#>1:~>36:?b & out$(!n " in base " !b " is " str$(base$(!n.!b))) );</lang>
C
<lang c>#include <stdlib.h>
- include <string.h>
- include <stdio.h>
- include <stdint.h>
char *to_base(int64_t num, int base) { char *tbl = "0123456789abcdefghijklmnopqrstuvwxyz"; char buf[66] = {'\0'}; char *out; uint64_t n; int i, len = 0, neg = 0; if (base > 36) { fprintf(stderr, "base %d too large\n", base); return 0; }
/* safe against most negative integer */ n = ((neg = num < 0)) ? (~num) + 1 : num;
do { buf[len++] = tbl[n % base]; } while(n /= base);
out = malloc(len + neg + 1); for (i = neg; len > 0; i++) out[i] = buf[--len]; if (neg) out[0] = '-';
return out; }
long from_base(const char *num_str, int base) { char *endptr; /* there is also strtoul() for parsing into an unsigned long */ /* in C99, there is also strtoll() and strtoull() for parsing into long long and * unsigned long long, respectively */ int result = strtol(num_str, &endptr, base); return result; }
int main() { int64_t x; x = ~(1LL << 63) + 1; printf("%lld in base 2: %s\n", x, to_base(x, 2)); x = 383; printf("%lld in base 16: %s\n", x, to_base(x, 16)); return 0; }</lang>output
-9223372036854775808 in base 2: -1000000000000000000000000000000000000000000000000000000000000000 383 in base 16: 17f
C++
<lang cpp>#include <string>
- include <cstdlib>
- include <algorithm>
- include <cassert>
std::string const digits = "0123456789abcdefghijklmnopqrstuvwxyz";
std::string to_base(unsigned long num, int base) {
if (num == 0) return "0"; std::string result; while (num > 0) { std::ldiv_t temp = std::div(num, (long)base); result += digits[temp.rem]; num = temp.quot; } std::reverse(result.begin(), result.end()); return result;
}
unsigned long from_base(std::string const& num_str, int base) {
unsigned long result = 0; for (std::string::size_type pos = 0; pos < num_str.length(); ++pos) result = result * base + digits.find(num_str[pos]); return result;
}</lang>
C#
<lang CSharp> public static class BaseConverter {
/// <summary> /// Converts a string to a number /// </summary> /// <returns>The number.</returns> /// <param name="s">The string to convert.</param> /// <param name="b">The base number (between 2 and 36).</param> public static long stringToLong(string s, int b) {
if ( b < 2 || b > 36 ) throw new ArgumentException("Base must be between 2 and 36", "b");
checked {
int slen = s.Length; long result = 0; bool isNegative = false;
for ( int i = 0; i < slen; i++ ) {
char c = s[i]; int num;
if ( c == '-' ) { // Negative sign if ( i != 0 ) throw new ArgumentException("A negative sign is allowed only as the first character of the string.", "s");
isNegative = true; continue; }
if ( c > 0x2F && c < 0x3A ) // Numeric character (subtract from 0x30 ('0') to get numerical value) num = c - 0x30; else if ( c > 0x40 && c < 0x5B ) // Uppercase letter // Subtract from 0x41 ('A'), then add 10 num = c - 0x37; // 0x37 = 0x41 - 10 else if ( c > 0x60 && c < 0x7B ) // Lowercase letter // Subtract from 0x61 ('a'), then add 10 num = c - 0x57; // 0x57 = 0x61 - 10 else throw new ArgumentException("The string contains an invalid character '" + c + "'", "s");
// Check that the digit is allowed by the base.
if ( num >= b ) throw new ArgumentException("The string contains a character '" + c + "' which is not allowed in base " + b, "s");
// Multiply the result by the base, then add the next digit
result *= b; result += num;
}
if ( isNegative ) result = -result;
return result;
}
}
/// <summary> /// Converts a number to a string. /// </summary> /// <returns>The string.</returns> /// <param name="n">The number to convert.</param> /// <param name="b">The base number (between 2 and 36).</param> public static string longToString(long n, int b) { // This uses StringBuilder, so it only works with .NET 4.0 or higher. For earlier versions, the StringBuilder // can be replaced with simple string concatenation. if ( b < 2 || b > 36 ) throw new ArgumentException("Base must be between 2 and 36", "b");
// If the base is 10, call ToString() directly, which returns a base-10 string.
if ( b == 10 ) return n.ToString();
checked { long longBase = b; StringBuilder sb = new StringBuilder(); if ( n < 0 ) { // Negative numbers n = -n; sb.Append('-'); } long div = 1; while ( n / div >= b ) // Continue multiplying the dividend by the base until it reaches the greatest power of // the base which is less than or equal to the number. div *= b; while ( true ) { byte digit = (byte) (n / div); if ( digit < 10 ) // Numeric character (0x30 = '0') sb.Append((char) (digit + 0x30)); else // Alphabetic character (for digits > 10) (0x61 = 'a') sb.Append((char) (digit + 0x57)); // 0x61 - 10 if ( div == 1 ) // Stop when the dividend reaches 1 break; n %= div; div /= b; } return sb.ToString(); }
}
} </lang>
Caché ObjectScript
<lang cos>Class Utils.Number [ Abstract ] {
ClassMethod ConvertBase10ToN(pNum As %Integer = "", pBase As %Integer = "", pBaseStr As %String = "", pPos As %Integer = 0) As %String { If pNum=0 Quit "" Set str=..ConvertBase10ToN(pNum\pBase, pBase, pBaseStr, pPos+1) Quit str_$Extract(pBaseStr, pNum#pBase+1) }
ClassMethod ConvertBaseNTo10(pStr As %String = "", pBase As %Integer = "", pBaseStr As %String = "", pPos As %Integer = 0) As %Integer { If pStr="" Quit 0 Set num=..ConvertBaseNTo10($Extract(pStr, 1, *-1), pBase, pBaseStr, pPos+1) Set dec=$Find(pBaseStr, $Extract(pStr, *))-2 Quit num+(dec*(pBase**pPos)) }
ClassMethod ConvertBase(pStr As %String = "", pFrom As %Integer = 10, pTo As %Integer = 10, pBaseStr As %String = "", pLen As %Integer = 0) As %String { // some initialisation If pBaseStr="" Set pBaseStr="0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"
// check input values If pFrom=10 Set pStr=$Number(pStr, "i", 0) If pStr="" Quit "" Set pFrom=$Number(pFrom, "i", 2, 94) If pFrom="" Quit "" Set pTo=$Number(pTo, "i", 2, 94) If pTo="" Quit "" Set pLen=$Number(pLen, "i", 0, 32) If pLen="" Quit ""
// does base number exceed base string? If pFrom>$Length(pBaseStr) Quit "" If pTo>$Length(pBaseStr) Quit ""
// allow for upper/lowercase values If pTo=10 { If $Match(pStr, "^[0-9a-z]+$"), $Match($Extract(pBaseStr, 1, pFrom), "^[0-9A-Z]+$") { Set pStr=$ZConvert(pStr, "U") } If $Match(pStr, "^[0-9A-Z]+$"), $Match($Extract(pBaseStr, 1, pFrom), "^[0-9a-z]+$") { Set pStr=$ZConvert(pStr, "L") } }
// do the conversion If pFrom=pTo { Set pStr=pStr } ElseIf pFrom=10 { Set pStr=..ConvertBase10ToN($Select(pStr=0: "", 1: pStr), pTo, pBaseStr) } ElseIf pTo=10 { Set pStr=..ConvertBaseNTo10(pStr, pFrom, pBaseStr) } Else { Set pStr=..ConvertBase10ToN(..ConvertBaseNTo10(pStr, pFrom, pBaseStr), pTo, pBaseStr) }
// return value If pLen=0 Quit pStr If pTo'=10 Quit ..PadStr(pStr, pLen, $Extract(pBaseStr)) Quit ..PadStr(pStr, pLen) }
ClassMethod PadStr(pStr As %String, pLen As %Integer, pZero As %String = 0) As %String [ Private ] { If $Length(pStr)>pLen Quit pStr Quit $Translate($Justify(pStr, pLen), " ", pZero) }
}</lang>
- Examples:
USER>Write ##class(Utils.Number).ConvertBase(1010101111001101, 2, 16) ABCD USER>Write $ZHex(26) 1A USER>Write $ZHex("1A") 26 USER>Write ##class(Utils.Number).ConvertBase(26, 10, 16) 1A USER>Write ##class(Utils.Number).ConvertBase("1A", 16, 10) 26 USER>Write ##class(Utils.Number).ConvertBase(6234900123456700, 10, 42, "!$%-0123456789@ABCDEFGHIJKLMNOPQRSTUVWXYZ_") A9XUCDBHK6 USER>Write ##class(Utils.Number).ConvertBase("A9XUCDBHK6", 42, 10, "!$%-0123456789@ABCDEFGHIJKLMNOPQRSTUVWXYZ_") 6234900123456700
Common Lisp
<lang lisp>(parse-integer "1a" :radix 16) ; returns multiple values: 26, 2 (write-to-string 26 :base 16) ; also "1A"</lang>
D
Using Standard Functions
<lang d>import std.stdio, std.conv, std.string, std.ascii;
void main() {
"1abcd".to!int(16).writeln;
writeln(60_272_032_366.to!string(36, LetterCase.lower), ' ', 591_458.to!string(36, LetterCase.lower));
}</lang>
- Output:
109517 rosetta code
One Implementation
<lang d>import std.stdio, std.array, std.ascii;
immutable string mDigits = digits ~ lowercase;
ulong atoiRadix(in string str, in uint radix=10, int* consumed=null) nothrow {
static int dtoi(in char dc, in uint radix) nothrow { static int[immutable char] digit; immutable char d = dc.toLower; if (digit.length == 0) // Not init yet. foreach (i, c; mDigits) digit[c] = i; if (radix > 1 && radix <= digit.length && d in digit && digit[d] < radix) return digit[d]; return int.min; // A negative for error. }
ulong result; int sp; for (; sp < str.length; sp++) { immutable int d = dtoi(str[sp], radix); if (d >= 0) // Valid digit char. result = radix * result + d; else break; } if (sp != str.length) // Some char in str not converted. sp = -sp; if (consumed !is null) // Signal error if not positive. *consumed = sp; return result;
}
string itoaRadix(ulong num, in uint radix=10) pure nothrow in {
assert(radix > 1 && radix <= mDigits.length);
} body {
string result; while (num > 0) { immutable uint d = num % radix; result = mDigits[d] ~ result; num = (num - d) / radix; } return result.empty ? "0" : result;
}
void main() {
immutable string numStr = "1ABcdxyz???";
int ate; writef("'%s' (base %d) = %d", numStr, 16, atoiRadix(numStr, 16, &ate));
if (ate <= 0) writefln("\tConverted only: '%s'", numStr[0 .. -ate]); else writeln();
writeln(itoaRadix(60_272_032_366, 36), " ", itoaRadix(591_458, 36));
}</lang>
- Output:
'1ABcdxyz???' (base 16) = 109517 Converted only: '1ABcd' rosetta code
Alternative Implementation
<lang d>import std.stdio, std.algorithm, std.ascii, std.array;
alias Digits = ubyte[];
Digits toBase(ulong number, in ubyte base) pure nothrow {
Digits result; while (number) { result = number % base ~ result; number /= base; } return result;
}
enum fromBase = (in Digits digits, in ubyte base) pure nothrow =>
reduce!((n, k) => n * base + k)(0UL, digits);
immutable myDigits = digits ~ lowercase;
enum fromDigits = (in Digits digits) pure nothrow =>
digits.map!(d => myDigits[d]).array;
enum convert = (in dchar d) pure nothrow =>
cast(ubyte)(d.isDigit ? d - '0' : d.toLower - 'a' + 10);
enum toDigits = (in string number) pure /*nothrow*/ =>
number.map!convert.array;
void main() {
"1ABcd".toDigits.fromBase(16).writeln;
}</lang>
- Output:
109517
E
<lang e>def stringToInteger := __makeInt def integerToString(i :int, base :int) {
return i.toString(base)
}</lang>
<lang e>? stringToInteger("200", 16)
- value: 512
? integerToString(200, 16)
- value: "c8"</lang>
Erlang
- Output:
12> erlang:list_to_integer("ffff", 17). 78300 13> erlang:integer_to_list(63, 3). "2100"
Euphoria
<lang euphoria>function to_base(integer i, integer base)
integer rem sequence s s = "" while i > 0 do rem = remainder(i,base) if rem < 10 then s = prepend(s, '0'+rem) else s = prepend(s, 'a'-10+rem) end if i = floor(i/base) end while if length(s) = 0 then s = "0" end if return s
end function
function from_base(sequence s, integer base)
integer i,d i = 0 for n = 1 to length(s) do i *= base if s[n] >= '0' and s[n] <= '9' then d = s[n]-'0' elsif s[n] >= 'a' then d = s[n]-'a'+10 end if i += d end for return i
end function</lang>
Factor
<lang factor>USE: math.parser
12345 16 >base . "3039" 16 base> .</lang>
Forth
Forth has a global user variable, BASE, which determines the radix used for parsing, interpretation, and printing of integers. This can handle bases from 2-36, but there are two words to switch to the most popular bases, DECIMAL and HEX. <lang forth>42 dup 2 base ! . \ 101010 hex . \ 2A decimal</lang>
Many variants of Forth support literals in some bases, such as hex, using a prefix <lang forth>$ff . \ 255</lang>
Fortran
<lang fortran>MODULE Conversion
IMPLICIT NONE CHARACTER(36) :: alphanum = "0123456789abcdefghijklmnopqrstuvwxyz" CONTAINS
FUNCTION ToDecimal(base, instr) INTEGER :: ToDecimal INTEGER :: length, i, n, base CHARACTER(*) :: instr
ToDecimal = 0 length = LEN(instr) DO i = 1, length n = INDEX(alphanum, instr(i:i)) - 1 n = n * base**(length-i) Todecimal = ToDecimal + n END DO END FUNCTION ToDecimal
FUNCTION ToBase(base, number) CHARACTER(31) :: ToBase INTEGER :: base, number, i, rem
ToBase = " " DO i = 31, 1, -1 IF(number < base) THEN ToBase(i:i) = alphanum(number+1:number+1) EXIT END IF rem = MOD(number, base) ToBase(i:i) = alphanum(rem+1:rem+1) number = number / base END DO ToBase = ADJUSTL(ToBase) END FUNCTION ToBase
END MODULE Conversion
PROGRAM Base_Convert
USE Conversion
WRITE (*,*) ToDecimal(16, "1a") WRITE (*,*) ToBase(16, 26)
END PROGRAM</lang>
Go
<lang go>package main
import (
"fmt" "math/big" "strconv"
)
func main () {
s := strconv.FormatInt(26, 16) // returns the string "1a" fmt.Println(s)
i, err := strconv.ParseInt("1a", 16, 64) // returns the integer (int64) 26 if err == nil { fmt.Println(i) } b, ok := new(big.Int).SetString("1a", 16) // returns the big integer 26 if ok { fmt.Println(b) }
}</lang>
Groovy
Solution: <lang groovy>def radixParse = { s, radix -> Integer.parseInt(s, radix) } def radixFormat = { i, radix -> Integer.toString(i, radix) }</lang>
Test Program: <lang groovy>def numString = '101' (2..Character.MAX_RADIX).each { radix ->
def value = radixParse(numString, radix) assert value == radix**2 + 1 printf (" %3s (%2d) == %4d (10)\n", numString, radix, value) def valM2str = radixFormat(value - 2, radix) def biggestDigit = radixFormat(radix - 1, radix) assert valM2str == biggestDigit + biggestDigit printf ("%3s (%2d) - 2 (10) == %4s (%2d)\n", numString, radix, valM2str, radix)
}</lang>
Output:
101 ( 2) == 5 (10) 101 ( 2) - 2 (10) == 11 ( 2) 101 ( 3) == 10 (10) 101 ( 3) - 2 (10) == 22 ( 3) 101 ( 4) == 17 (10) 101 ( 4) - 2 (10) == 33 ( 4) 101 ( 5) == 26 (10) 101 ( 5) - 2 (10) == 44 ( 5) 101 ( 6) == 37 (10) 101 ( 6) - 2 (10) == 55 ( 6) 101 ( 7) == 50 (10) 101 ( 7) - 2 (10) == 66 ( 7) 101 ( 8) == 65 (10) 101 ( 8) - 2 (10) == 77 ( 8) 101 ( 9) == 82 (10) 101 ( 9) - 2 (10) == 88 ( 9) 101 (10) == 101 (10) 101 (10) - 2 (10) == 99 (10) 101 (11) == 122 (10) 101 (11) - 2 (10) == aa (11) 101 (12) == 145 (10) 101 (12) - 2 (10) == bb (12) 101 (13) == 170 (10) 101 (13) - 2 (10) == cc (13) 101 (14) == 197 (10) 101 (14) - 2 (10) == dd (14) 101 (15) == 226 (10) 101 (15) - 2 (10) == ee (15) 101 (16) == 257 (10) 101 (16) - 2 (10) == ff (16) 101 (17) == 290 (10) 101 (17) - 2 (10) == gg (17) 101 (18) == 325 (10) 101 (18) - 2 (10) == hh (18) 101 (19) == 362 (10) 101 (19) - 2 (10) == ii (19) 101 (20) == 401 (10) 101 (20) - 2 (10) == jj (20) 101 (21) == 442 (10) 101 (21) - 2 (10) == kk (21) 101 (22) == 485 (10) 101 (22) - 2 (10) == ll (22) 101 (23) == 530 (10) 101 (23) - 2 (10) == mm (23) 101 (24) == 577 (10) 101 (24) - 2 (10) == nn (24) 101 (25) == 626 (10) 101 (25) - 2 (10) == oo (25) 101 (26) == 677 (10) 101 (26) - 2 (10) == pp (26) 101 (27) == 730 (10) 101 (27) - 2 (10) == qq (27) 101 (28) == 785 (10) 101 (28) - 2 (10) == rr (28) 101 (29) == 842 (10) 101 (29) - 2 (10) == ss (29) 101 (30) == 901 (10) 101 (30) - 2 (10) == tt (30) 101 (31) == 962 (10) 101 (31) - 2 (10) == uu (31) 101 (32) == 1025 (10) 101 (32) - 2 (10) == vv (32) 101 (33) == 1090 (10) 101 (33) - 2 (10) == ww (33) 101 (34) == 1157 (10) 101 (34) - 2 (10) == xx (34) 101 (35) == 1226 (10) 101 (35) - 2 (10) == yy (35) 101 (36) == 1297 (10) 101 (36) - 2 (10) == zz (36)
Haskell
Using built-in functions to convert integer into string, and vice versa, at any base up to 16:
<lang haskell>Prelude> Numeric.showIntAtBase 16 Char.intToDigit 42 "" "2a" Prelude> fst $ head $ Numeric.readInt 16 Char.isHexDigit Char.digitToInt "2a" 42</lang>
It's actually more useful to represent digits internally as numbers instead of characters, because then one can define operations that work directly on this representation.
So conversion to and from digits represented as 0-9 and a-z is done in an additional step.
<lang haskell>import Data.List import Data.Char
toBase :: Int -> Int -> [Int] toBase b v = toBase' [] v where
toBase' a 0 = a toBase' a v = toBase' (r:a) q where (q,r) = v `divMod` b
fromBase :: Int -> [Int] -> Int fromBase b ds = foldl' (\n k -> n * b + k) 0 ds
toAlphaDigits :: [Int] -> String toAlphaDigits = map convert where
convert n | n < 10 = chr (n + ord '0') | otherwise = chr (n + ord 'a' - 10)
fromAlphaDigits :: String -> [Int] fromAlphaDigits = map convert where
convert c | isDigit c = ord c - ord '0' | isUpper c = ord c - ord 'A' + 10 | isLower c = ord c - ord 'a' + 10</lang>
Example:
<lang haskell>*Main> toAlphaDigits $ toBase 16 $ 42 "2a"
- Main> fromBase 16 $ fromAlphaDigits $ "2a"
42</lang>
HicEst
<lang hicest>CHARACTER txt*80
num = 36^7 -1 ! 7836416410 CALL DecToBase(num, txt, 36) WRITE(ClipBoard, Name) num, txt, BaseToDec(36, txt) END
FUNCTION BaseToDec(base, string)
CHARACTER string BaseToDec = 0 length = LEN_TRIM(string) DO i = 1, length n = INDEX("0123456789abcdefghijklmnopqrstuvwxyz", string(i)) - 1 BaseToDec = BaseToDec + n * base^(length-i) ENDDO END
SUBROUTINE DectoBase(decimal, string, base)
CHARACTER string string = '0' temp = decimal length = CEILING( LOG(decimal+1, base) ) DO i = length, 1, -1 n = MOD( temp, base ) string(i) = "0123456789abcdefghijklmnopqrstuvwxyz"(n+1) temp = INT(temp / base) ENDDO END</lang>
<lang hicest>num=7836416410; txt=zzzzzzz; 7836416410;</lang>
Icon and Unicon
Icon and Unicon natively take integers in radix form for bases 2 through 36. There is no need to convert to integer as the value will be coerced when needed. However, a conversion routine is needed to convert integers back into radix form.
<lang Icon>procedure main()
every ( ns := "16r5a" | "-12r1a" ) & ( b := 8 | 12 | 16 ) do { ns2 := convert(n := numeric(ns),b) printf("ns=%s -> n=%d -> %s\n",ns,n,ns2) }
end
link printf
procedure convert(i,b) #: convert i to base b radix representation static digits initial digits := &digits || &lcase
i := integer(i) | runerr(101, i) # arg/error checking /b := 10 | ( 2 < (b := integer(b)) <= *digits ) | runerr(205,b)
if b = 10 then return i else { p := (s := "", (i := -(0 > i),"-")|"") || b || "r" # prefix/setup until i = 0 & *s > 0 do s ||:= digits[1 + 1( i % b, i /:= b)]
return p || reverse(s) }
end</lang>
printf.icn provides printf There are several conversion routines for bases in the IPL, however, none returns the input radix form.
Output:
ns=16r5a -> n=90 -> 8r132 ns=16r5a -> n=90 -> 12r76 ns=16r5a -> n=90 -> 16r5a ns=-12r1a -> n=-22 -> -8r26 ns=-12r1a -> n=-22 -> -12r1a ns=-12r1a -> n=-22 -> -16r16
J
J supports direct specification of integers by base. The numbers are expressed as the base to be used (using base 10), the letter b, followed by the number itself. Following the initial letter b, other (lower case) letters represent "digts" 10 (a) through 35 (z), as in these examples: <lang j> 2b100 8b100 10b_100 16b100 36b100 36bzy 4 64 _100 256 1296 1294</lang>
Additionally, J has primitives #. and #: for dealing with base conversion issues.
Here are programs for conversion of numeric values to literals, and of literals to numbers: <lang j>numerals=: '0123456789abcdefghijklmnopqrstuvwxyz' baseNtoL=: numerals {~ #.inv baseLtoN=: [ #. numerals i. ]</lang> Examples of use: <lang j> 2 baseNtoL 100 101 1100100 1100101
16 baseNtoL 26
1a
36 baseLtoN 'zy'
1294</lang> These may be combined so the conversion performed is derived from the type of argument received. <lang j> base=: baseNtoL :: baseLtoN
16 base 'aa'
170
16 base 170
aa</lang> See also primary verbs Base and Antibase.
Java
for long's: <lang java>public static long backToTen(String num, int oldBase){
return Long.parseLong(num, oldBase); //takes both uppercase and lowercase letters
}
public static String tenToBase(long num, int newBase){
return Long.toString(num, newBase);//add .toUpperCase() for capital letters
}</lang>
for BigInteger's: <lang java>public static BigInteger backToTenBig(String num, int oldBase){
return new BigInteger(num, oldBase); //takes both uppercase and lowercase letters
}
public static String tenBigToBase(BigInteger num, int newBase){
return num.toString(newBase);//add .toUpperCase() for capital letters
}</lang>
JavaScript
<lang javascript>k = 26 s = k.toString(16) //gives 1a i = parseInt('1a',16) //gives 26 //optional special case for hex: i = +('0x'+s) //hexadecimal base 16, if s='1a' then i=26.</lang>
LFE
Converting decimal numbers 26 and 3000 in LFE, using some different mechanisms: <lang lisp> > (: erlang list_to_integer '"1a" 16) 26 > #x1a 26 > (: erlang integer_to_list 26 16) "1A" > (: erlang list_to_integer '"101110111000" 2) 3000 > #b101110111000 3000 > (: erlang integer_to_list 3000 2) "101110111000" </lang>
Liberty BASIC
<lang lb> ' Base Converter v6
global alphanum$ alphanum$ ="0123456789abcdefghijklmnopqrstuvwxyz"
for i =1 to 20 RandNum = int( 100 *rnd( 1)) base =2 +int( 35 *rnd( 1))
print "Decimal "; using( "###", RandNum); " to base "; using( "###", base);_ " is "; toBase$( base, RandNum),_ " back to dec. "; toDecimal( base, toBase$( base, RandNum)) next i
end ' ___________________________________________________________
function toBase$( base, number) ' Convert decimal variable to number string. toBase$ ="" for i =10 to 1 step -1 remainder =number mod base toBase$ =mid$( alphanum$, remainder +1, 1) +toBase$ number =int( number /base) if number <1 then exit for next i end function
function toDecimal( base, s$) ' Convert number string to decimal variable. toDecimal =0 for i =1 to len( s$) toDecimal =toDecimal *base +instr( alphanum$, mid$( s$, i, 1), 1) -1 next i end function </lang>
M4
<lang M4>eval(26,16) define(`frombase',`eval(0r$2:$1)') frombase(1a,16)</lang>
Output:
1a 26
Mathematica
Use the built-in functions IntegerString[] and FromDigits[]: <lang Mathematica>IntegerString[26,16] FromDigits["1a", 16])</lang>
Output:
"1a" 26
MATLAB / Octave
Use the built-in functions base2dec() and dec2base(): <lang Matlab>dec2base(26,16) base2dec('1a', 16)</lang>
Output:
1A 26
МК-61/52
П8 -> 1 0 П0 ПП 13 ИП7 П0 ИП8 ПП 13 С/П П7 -> П6 -> 1 П4 П5 Сx <-> ^ ПП 68 П3 - ИП7 * П2 ПП 68 ИП4 ИП6 * П4 / + ИП2 ИП1 - x#0 45 L0 27 -> ИП3 ^ ИП7 / ПП 68 ИП7 * - ИП5 * + ИП5 ИП6 * П5 -> ИП1 x=0 47 -> В/О 1 + П1 КИП1 -> -> ИП1 В/О
Input: Nm ^ m ^ n В/О С/П.
Output: Nn -> PX.
NetRexx
In NetRexx numbers are held as Rexx strings so you can take advantage of Java's BigInteger to do radix conversions. <lang NetRexx>/* NetRexx */ options replace format comments java crossref symbols nobinary
import java.math.BigInteger
numeric digits 200
parse arg input -- input should be val, radix; no input results in using default test data -- test data - number pairs where 1st is value and 2nd is target radix inputs = [ -
'1234, 10', '01234, 8', 'fe, 16', 'f0e, 16', - '0, 10', '00, 2', '11, 2', '070, 8', - '77, 8', 'f0e, 16', '070, 16', '0xf0e, 36', - '000999ABCXYZ, 36', 'ff, 36', 'f, 16', 'z, 37' - ]
if input.length() > 0 then inputs = [input] -- replace test data with user input
loop i_ = 0 to inputs.length - 1
do in = inputs[i_] parse in val . ',' radix . valB = toDecimal(val, radix) -- NetRexx default is to store digits as Rexx strings valD = fromDecimal(valB + 0, radix) -- Add zero just to prove the result treated as a number say val.right(16)'['radix.right(2, 0)']:' valB.right(16)'[10] ==' valD.right(16)'['radix.right(2, 0)']' catch nx = NumberFormatException say 'Error -- Input:' val', radix:' radix nx.printStackTrace() end end i_
return
method toDecimal(val = String, radix = int 10) public static returns Rexx
bi = BigInteger(val, radix) return bi.toString()
method fromDecimal(val = String, radix = int 10) public static returns Rexx
bi = BigInteger(val.toString(), 10) return bi.toString(radix)
</lang> Output:
1234[10]: 1234[10] == 1234[10] 01234[08]: 668[10] == 1234[08] fe[16]: 254[10] == fe[16] f0e[16]: 3854[10] == f0e[16] 0[10]: 0[10] == 0[10] 00[02]: 0[10] == 0[02] 11[02]: 3[10] == 11[02] 070[08]: 56[10] == 70[08] 77[08]: 63[10] == 77[08] f0e[16]: 3854[10] == f0e[16] 070[16]: 112[10] == 70[16] 0xf0e[36]: 1559102[10] == xf0e[36] 000999ABCXYZ[36]: 26115481426427[10] == 999abcxyz[36] ff[36]: 555[10] == ff[36] f[16]: 15[10] == f[16] Error -- Input: z, radix: 37 java.lang.NumberFormatException: Radix out of range at java.math.BigInteger.<init>(BigInteger.java:294) at RNonDecRadixConvert.toDecimal(RNonDecRadixConvert.nrx:77) at RNonDecRadixConvert.main(RNonDecRadixConvert.nrx:57)
OCaml
<lang ocaml>let int_of_basen n str =
match n with | 16 -> int_of_string("0x" ^ str) | 2 -> int_of_string("0b" ^ str) | 8 -> int_of_string("0o" ^ str) | _ -> failwith "unhandled"
let basen_of_int n d =
match n with | 16 -> Printf.sprintf "%x" d | 8 -> Printf.sprintf "%o" d | _ -> failwith "unhandled"</lang>
# basen_of_int 16 26 ;; - : string = "1a" # int_of_basen 16 "1a" ;; - : int = 26
A real base conversion example:
<lang ocaml>let to_base b v =
let rec to_base' a v = if v = 0 then a else to_base' (v mod b :: a) (v / b) in to_base' [] v
let from_base b ds =
List.fold_left (fun n k -> n * b + k) 0 ds
let to_alpha_digit n =
if n < 10 then char_of_int (n + int_of_char '0') else char_of_int (n + int_of_char 'a' - 10)
let to_alpha_digits ds =
let buf = Buffer.create (List.length ds) in List.iter (fun i -> Buffer.add_char buf (to_alpha_digit i)) ds; Buffer.contents buf
let from_alpha_digit c = match c with
'0'..'9' -> int_of_char c - int_of_char '0' | 'A'..'Z' -> int_of_char c - int_of_char 'A' + 10 | 'a'..'z' -> int_of_char c - int_of_char 'a' + 10
let from_alpha_digits s =
let result = ref [] in String.iter (fun c -> result := from_alpha_digit c :: !result) s; List.rev !result</lang>
Example:
# to_alpha_digits (to_base 16 42);; - : string = "2a" # from_base 16 (from_alpha_digits "2a");; - : int = 42
PARI/GP
<lang parigp>toBase(n,b)={
my(s="",t); while(n, t=n%b; n\=b; s=Str(if(t<=9,t,Strchr(Vecsmall([87+t]))),s) ); if(#s,s,"0")
}; fromBase(s,b)={
my(t=0); s=Vecsmall(s); forstep(i=#s,1,-1, t=b*t+s[i]-if(s[i]<58,48,87) ); t
};</lang>
Pascal
<lang pascal>Program ConvertDemo(output);
uses
Math, SysUtils;
const
alphanum = '0123456789abcdefghijklmnopqrstuvwxyz';
function ToDecimal(base: integer; instring: string): integer;
var inlength, i, n: integer; begin ToDecimal := 0; inlength := length(instring); for i := 1 to inlength do begin n := pos(instring[i], alphanum) - 1; n := n * base**(inlength-i); Todecimal := ToDecimal + n; end; end;
function ToBase(base, number: integer): string;
var i, rem: integer; begin ToBase :=' '; for i := 31 downto 1 do begin if (number < base) then begin ToBase[i] := alphanum[number+1]; break; end; rem := number mod base; ToBase[i] := alphanum[rem+1]; number := number div base; end; ToBase := trimLeft(ToBase); end;
begin
writeln ('1A: ', ToDecimal(16, '1a')); writeln ('26: ', ToBase(16, 26));
end. </lang> Output:
% ./Convert 1A: 26 26: 1a
Perl
To parse from a base: <lang perl>use POSIX;
my ($num, $n_unparsed) = strtol('1a', 16); $n_unparsed == 0 or die "invalid characters found"; print "$num\n"; # prints "26"</lang>
To format into a base: <lang perl>sub digitize
- Converts an integer to a single digit.
{my $i = shift; $i < 10 ? $i : ('a' .. 'z')[$i - 10];}
sub to_base
{my ($int, $radix) = @_; my $numeral = ; do { $numeral .= digitize($int % $radix); } while $int = int($int / $radix); scalar reverse $numeral;}</lang>
Math::BaseCnv
can convert an integer to or from an
arbitrary other base. Its normal output is upper-case but the usual
lc()
can convert (cf String case).
<lang Perl>use Math::BaseCnv 'cnv';
print cnv("1a", 16, 10),"\n"; # "1a" from hex to decimal prints 26
print lc(cnv(26, 10, 16)),"\n"; # 26 from decimal to hex prints "1a"</lang>
Math::BaseCalc
can do similar conversions with an
arbitrary set of characters for digits.
Perl 6
<lang perl6>sub from-base(Str $str, Int $base) {
+":$base\<$str>";
}
sub to-base(Real $num, Int $base) {
$num.base($base);
}</lang> These work on any real type including integer types.
PHP
PHP has a base_convert() function that directly converts between strings of one base and strings of another base: <lang php>base_convert("26", 10, 16); // returns "1a"</lang>
If you want to convert a string to an integer, the intval() function optionally takes a base argument when given a string: <lang php>intval("1a", 16); // returns 26</lang>
To go the other way around, I guess you can use base_convert() again; I am unaware of a better way: <lang php>base_convert(26, 10, 16); // returns "1a"</lang>
In addition, there are specialized functions for converting certain bases: <lang php>// converts int to binary string decbin(26); // returns "11010" // converts int to octal string decoct(26); // returns "32" // converts int to hex string dechex(26); // returns "1a" // converts binary string to int bindec("11010"); // returns 26 // converts octal string to int octdec("32"); // returns 26 // converts hex string to int hexdec("1a"); // returns 26</lang>
PL/I
<lang PL/I> convert: procedure (N, base) returns (character (64) varying) recursive;
declare N fixed binary (31), base fixed binary; declare table (0:15) character ( '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f'); declare s character (64) varying;
if N = 0 then return ();
s = convert(N/base, base); return (s || table(mod(N, base)) );
end convert; </lang>
PicoLisp
<lang PicoLisp>(de numToString (N Base)
(default Base 10) (let L NIL (loop (let C (% N Base) (and (> C 9) (inc 'C 39)) (push 'L (char (+ C `(char "0")))) ) (T (=0 (setq N (/ N Base)))) ) (pack L) ) )
(de stringToNum (S Base)
(default Base 10) (let N 0 (for C (chop S) (when (> (setq C (- (char C) `(char "0"))) 9) (dec 'C 39) ) (setq N (+ C (* N Base))) ) N ) )
(prinl (numToString 26 16)) (prinl (stringToNum "1a" 16)) (prinl (numToString 123456789012345678901234567890 36))</lang> Output:
"1a" 26 "byw97um9s91dlz68tsi"
Pop11
Pop11 can input and output routines can use any base up to 36 (depending on value 'pop_pr_radix' variable). 'radix_apply' runs i/o routine temporarly setting 'pop_pr_radix' to given value. 'sprintf' procedure instead of printing returns string. So, to convert number to given value we just compose built-in procedures:
<lang pop11>define number_to_base(n, base);
radix_apply(n, '%p', sprintf, base);
enddefine;</lang>
In input base optionally preceeds the number, for example 8:15 is 13. So, to convert string in given base we need to prepend base prefix and read number from string:
<lang pop11>define string_in_base_to_number(s, base);
incharitem(stringin(base >< ':' >< s))();
enddefine;</lang>
PureBasic
<lang PureBasic>Global alphanum$ = "0123456789abcdefghijklmnopqrstuvwxyz" ;36 digits
- maxIntegerBitSize = SizeOf(Integer) * 8
Procedure toDecimal(base, s.s)
Protected length, i, toDecimal length = Len(s) If length: toDecimal = FindString(alphanum$, Left(s, 1), 1) - 1: EndIf For i = 2 To length toDecimal * base + FindString(alphanum$, Mid(s, i, 1), 1) - 1 Next ProcedureReturn toDecimal
EndProcedure
Procedure.s toBase(base, number)
Protected i, rem, toBase.s{#maxIntegerBitSize} = Space(#maxIntegerBitSize) For i = #maxIntegerBitSize To 1 Step -1 rem = number % base PokeC(@toBase + i - 1, PeekC(@alphanum$ + rem)) If number < base: Break: EndIf number / base Next ProcedureReturn LTrim(toBase)
EndProcedure
If OpenConsole()
PrintN( Str(toDecimal(16, "1a")) ) PrintN( toBase(16, 26) ) Print(#CRLF$ + #CRLF$ + "Press ENTER to exit") Input() CloseConsole()
EndIf</lang> Sample output:
26 1a
Python
Converting from string to number is easy: <lang python>i = int('1a',16) # returns the integer 26</lang> Converting from number to string is harder: <lang python>digits = "0123456789abcdefghijklmnopqrstuvwxyz" def baseN(num,b):
return (((num == 0) and "0" ) or ( baseN(num // b, b).lstrip("0") + digits[num % b]))
- alternatively:
def baseN(num,b):
if num == 0: return "0" result = "" while num != 0: num, d = divmod(num, b) result += digits[d] return result[::-1] # reverse
k = 26 s = baseN(k,16) # returns the string 1a</lang>
Racket
<lang Racket>
- lang racket
- Both assume valid inputs
(define (num->str N r)
(let loop ([N N] [digits '()]) (define-values [N1 d] (quotient/remainder N r)) (define digits1 (cons (integer->char (+ d (if (< d 10) 48 55))) digits)) (if (zero? N) (list->string digits1) (loop N1 digits1))))
(define (str->num S r)
(for/fold ([N 0]) ([B (string->bytes/utf-8 (string-upcase S))]) (+ (* N r) (- B (if (< 64 B) 55 48)))))
- To try it out
(define (random-test)
(define N (random 1000000)) (define r (+ 2 (random 35))) (define S (num->str N r)) (define M (str->num S r)) (printf "~s -> ~a#~a -> ~a => ~a\n" N S r M (if (= M N) 'OK 'BAD)))
- (random-test)
</lang>
REXX
Instead of writing two seperate routines, only one was written to handle both tasks.
This routine was ripped out from a bigger version of mine that allowed any number as input, including decimal (or whatever base) fractions.
Illegal digits are detected as well as illegal (not supported) bases.
<lang rexx>/*REXX program converts numbers from one base to another, from 2 ──► 90.*/
/*┌────────────────────────────────────────────────────────────────────┐
┌─┘ Input to this program (bases must be positive whole numbers): └─┐
│ │
│ x is required (it may have a sign). │
│ toBase the base to convert X to. │
│ inBase the base X is expressed in. │
│ │
│ toBase or inBase can be a comma (,) which causes the default │
└─┐ of 10 to be used. The limits of bases are: 2 ──► 90. ┌─┘
└────────────────────────────────────────────────────────────────────┘*/
@abc='abcdefghijklmnopqrstuvwxyz' /*lowercase Latin alphabet. */ @abcU=@abc; upper @abcU /*go whole hog and extend 'em. */ @@@=0123456789||@abc||@abcU /*prefix 'em with numeric digits.*/ @@@=@@@'<>[]{}()?~!@#$%^&*_=|\/;:¢¬≈' /*add some special chars as well.*/
/*special chars must be viewable.*/
numeric digits 1000 /*what da hey, support gihugeics.*/ maxB=length(@@@) /*max base (radix) supported here*/ parse arg x toB inB 1 ox . /*get a number, toBase, inBase*/ if toB== | toB==',' then toB=10 /*if skipped, assume default (10)*/ if inB== | inB==',' then inB=10 /* " " " " " */ if inB<2 | inb>maxB then call erb 'inBase',inB /*bad boy inBase.*/ if toB<2 | tob>maxB then call erb 'toBase',toB /* " " toBase.*/ if x== then call erm /* " " number.*/ sigX=left(x,1); if pos(sigX,"-+")\==0 then x=substr(x,2) /*X has sign?*/
else sigX= /*no sign. */
- =0; do j=1 for length(x) /*convert X, base inB ──► base 10*/
_=substr(x,j,1) /*pick off a "digit" from X. */ v=pos(_,@@@) /*get the value of this "digit". */ if v==0 | v>inB then call erd x,j,inB /*illegal "digit"? */ #=#*inB+v-1 /*construct new num, dig by dig. */ end /*j*/
y=; do while # >= toB /*convert #, base 10 ──► base toB*/
y=substr(@@@,(#//toB)+1,1)y /*construct the output number. */ #=#%toB /*... and whittle # down also. */ end /*while #>-toB*/
y=sigX || substr(@@@,#+1,1)y /*prepend the sign if it existed.*/ say ox "(base" inB')' center('is',20) y "(base" toB')' /*show & tell.*/ exit /*stick a fork in it, we're done.*/ /*──────────────────────────────────error subroutines───────────────────*/ erb: call ser; say 'illegal' arg(2) "base:" arg(1) "must be in range: 2──►" maxB erd: call ser; say 'illegal "digit" in' x":" _ erm: call ser; say 'no argument specified.' ser: say; say '*** error! ***'; say; exit 13</lang> output when input is (maximum positive integer in a signed 32-bit word): 7fffffff , 16
7fffffff (base 16) is 2147483647 (base 10)
output when input is: 4095 2
4095 (base 10) is 111111111111 (base 2)
output when input is: 100 3 2
100 (base 2) is 11 (base 3)
output when input is: zombieseatingdeadvegetables 10 36
zombieseatingdeadvegetables (base 36) is 1038334289300125869792154778345043071467300 (base 10)
Ruby
<lang ruby>s = 26.to_s(16) # returns the string 1a i = '1a'.to_i(16) # returns the integer 26</lang> Caution: to_i simply stops when it reaches an invalid character; it does not raise any exceptions. So sometimes it may appear to parse something and get a result, but it is only based on part of the input string: <lang ruby>"59".to_i(7) # returns 5, but this is probably not what you wanted</lang>
For a general base parsing that raises an exception for invalid characters:
<lang ruby>module BaseConvert
DIGITS = [*"0".."9", *"a".."z"] def baseconvert(str, basefrom, baseto) dec2base(base2dec(str, basefrom), baseto) end def base2dec(str, base) raise ArgumentError, "base is invalid" unless base.between?(2, DIGITS.length) str.to_s.downcase.each_char.inject(0) do |res, c| idx = DIGITS[0,base].index(c) idx.nil? and raise ArgumentError, "invalid base-#{base} digit: #{c}" res = res * base + idx end end def dec2base(n, base) return "0" if n == 0 raise ArgumentError, "base is invalid" unless base.between?(2, DIGITS.length) res = [] while n > 0 n, r = n.divmod(base) res.unshift(DIGITS[r]) end res.join end
end
include BaseConvert p dec2base(26, 16) # => "1a" p base2dec("1a", 16) # => 26 p baseconvert("107h", 23, 7) # => "50664"</lang>
Run BASIC
<lang runbasic>global basCvt$ basCvt$ ="0123456789abcdefghijklmnopqrstuvwxyz"
html "
"for i =1 to 10
RandNum = int(100 * rnd(1)) base = 2 +int(35 * rnd(1))html ""
next i
html "Decimal | To Base | Num | to Dec |
";using("###", RandNum);" | ";using("###", base);" | ";toBase$(base,RandNum);" | ";toDecimal( base, toBase$( base, RandNum));" |
"
end
function toBase$(b,n) ' b=base n=nmber
toBase$ ="" for i =10 to 1 step -1 toBase$ =mid$(basCvt$,n mod b +1,1) +toBase$ n =int( n /b) if n <1 then exit for next i
end function
function toDecimal( b, s$) ' scring number to decimal
toDecimal =0 for i =1 to len( s$) toDecimal = toDecimal * b + instr(basCvt$,mid$(s$,i,1),1) -1 next i
end function</lang>
Decimal | To Base | Num | to Dec |
51 | 2 | 110011 | 51 |
27 | 10 | 27 | 27 |
12 | 18 | c | 12 |
90 | 35 | 2k | 90 |
99 | 17 | 5e | 99 |
99 | 18 | 59 | 99 |
55 | 11 | 50 | 55 |
56 | 28 | 20 | 56 |
71 | 34 | 23 | 71 |
61 | 23 | 2f | 61 |
Seed7
The type integer defines the operator radix and the function integer, which convert to string and vice versa. The type bigInteger defines radix and bigInteger for corresponding purposes.
<lang seed7>$ include "seed7_05.s7i";
include "bigint.s7i";
const proc: main is func
begin writeln(60272032366_ radix 36); # Convert bigInteger to string writeln(591458 radix 36); # Convert integer to string
writeln(bigInteger("rosetta", 36)); # Convert string to bigInteger writeln(integer("code", 36)); # Convert string to integer end func;</lang>
- Output:
rosetta code 60272032366 591458
Slate
<lang slate>26 printString &radix: 16 Integer readFrom: '1A' &radix: 16.</lang>
Standard ML
<lang sml>fun toBase b v = let
fun toBase' (a, 0) = a | toBase' (a, v) = toBase' (v mod b :: a, v div b)
in
toBase' ([], v)
end
fun fromBase b ds =
foldl (fn (k, n) => n * b + k) 0 ds
val toAlphaDigits = let
fun convert n = if n < 10 then chr (n + ord #"0") else chr (n + ord #"a" - 10)
in
implode o map convert
end
val fromAlphaDigits = let
fun convert c = if Char.isDigit c then ord c - ord #"0" else if Char.isUpper c then ord c - ord #"A" + 10 else if Char.isLower c then ord c - ord #"a" + 10 else raise Match
in
map convert o explode
end</lang>
Example:
val toAlphaDigits = fn : int list -> string - toAlphaDigits (toBase 16 42); val it = "2a" : string - fromBase 16 (fromAlphaDigits "2a"); val it = 42 : int
Tcl
Tcl scan
and format
commands can convert between decimal, octal and hexadecimal, but this solution can convert between any arbitrary bases.
<lang tcl>namespace eval baseconvert {
variable chars "0123456789abcdefghijklmnopqrstuvwxyz" namespace export baseconvert
} proc baseconvert::dec2base {n b} {
variable chars expr {$n == 0 ? 0 : "[string trimleft [dec2base [expr {$n/$b}] $b] 0][string index $chars [expr {$n%$b}]]" }
} proc baseconvert::base2dec {n b} {
variable chars set sum 0 foreach char [split $n ""] { set d [string first $char [string range $chars 0 [expr {$b - 1}]]] if {$d == -1} {error "invalid base-$b digit '$char' in $n"} set sum [expr {$sum * $b + $d}] } return $sum
} proc baseconvert::baseconvert {n basefrom baseto} {
dec2base [base2dec $n $basefrom] $baseto
}
namespace import baseconvert::baseconvert baseconvert 12345 10 23 ;# ==> 107h baseconvert 107h 23 7 ;# ==> 50664 baseconvert 50664 7 10 ;# ==> 12345</lang>
Ursala
A function parameterized by the base b performs the conversion in each direction. Folding (=>), iteration (->), and reification (-:) operators among others are helpful. <lang Ursala>#import std
- import nat
num_to_string "b" = ||'0'! (-: num digits--letters)*+ @NiX ~&r->l ^|rrPlCrlPX/~& division\"b"
string_to_num "b" = @x =>0 sum^|/(-:@rlXS num digits--letters) product/"b"</lang> This test program performs the conversions in both directions for a selection of numbers in base 8 and base 32. <lang Ursala>test_data = <1,2,15,32,100,65536,323498993>
- cast %sLnLUL
tests =
<
num_to_string32* test_data, string_to_num32* num_to_string32* test_data, num_to_string8* test_data, string_to_num8* num_to_string8* test_data></lang>
output:
< <'1','2','f','10','34','2000','9kgcvh'>, <1,2,15,32,100,65536,323498993>, <'1','2','17','40','144','200000','2322031761'>, <1,2,15,32,100,65536,323498993>>
Wolframalpha
input box: 1801 decimal to base 16
input box: (99 base 12)+(77 base 8)
This is Mathematica but is worth showing distinctly. Result provides endian choice and other bases typically.
XPL0
<lang XPL0>include c:\cxpl\codes; \intrinsic 'code' declarations string 0; \use zero-terminated string convention
func Num2Str(N, B); \Convert integer N to a numeric string in base B int N, B; char S(32); int I; [I:= 31; S(31):= 0; \terminate string repeat I:= I-1;
N:= N/B; S(I):= rem(0) + (if rem(0)<=9 then ^0 else ^a-10);
until N=0; return @S(I); \BEWARE! very temporary string space ];
func Str2Num(S, B); \Convert numeric string S in base B to an integer char S; int B; int I, N; [I:= 0; N:= 0; while S(I) do
[N:= N*B + S(I) - (if S(I)<=^9 then ^0 else ^a-10); I:= I+1];
return N; ];
[Text(0, Num2Str(0, 10)); CrLf(0);
Text(0, Num2Str(26, 16)); CrLf(0); Text(0, Num2Str($7FFF_FFFF, 2)); CrLf(0); IntOut(0, Str2Num("0100", 2)); CrLf(0); IntOut(0, Str2Num("1a", 16)); CrLf(0); IntOut(0, Str2Num("deadbeef", 16)); CrLf(0);
]</lang>
Output:
0 1a 1111111111111111111111111111111 4 26 -559038737
zkl
The toInt(base) and toString(base) methods do this. base is 2..36 <lang zkl>(26).toString(16) //--> "1a" "1a".toInt(16) //-->26</lang> In addition, string format is able to convert to a base: <lang zkl>"%x %,.2B".fmt(26,26) //-->"1a 1|1010"</lang>
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