Multisplit
It is often necessary to split a string into pieces based on several different (potentially multi-character) separator strings, while still retaining the information about which separators were present in the input.
You are encouraged to solve this task according to the task description, using any language you may know.
This is particularly useful when doing small parsing tasks.
The task is to write code to demonstrate this.
The function (or procedure or method, as appropriate) should take an input string and an ordered collection of separators.
The order of the separators is significant:
The delimiter order represents priority in matching, with the first defined delimiter having the highest priority.
In cases where there would be an ambiguity as to
which separator to use at a particular point
(e.g., because one separator is a prefix of another)
the separator with the highest priority should be used.
Delimiters can be reused and the output from the function should be an ordered sequence of substrings.
Test your code using the input string “a!===b=!=c
” and the separators “==
”, “!=
” and “=
”.
For these inputs the string should be parsed as "a" (!=) "" (==) "b" (=) "" (!=) "c"
, where matched delimiters are shown in parentheses, and separated strings are quoted, so our resulting output is "a", empty string, "b", empty string, "c"
.
Note that the quotation marks are shown for clarity and do not form part of the output.
Extra Credit: provide information that indicates which separator was matched at each separation point and where in the input string that separator was matched.
11l
F multisplit(text, sep)
V lastmatch = 0
V i = 0
V matches = ‘’
L i < text.len
L(s) sep
V j = L.index
I text[i..].starts_with(s)
I i > lastmatch
matches ‘’= text[lastmatch .< i]
matches ‘’= ‘{’s‘}’
lastmatch = i + s.len
i += s.len
L.break
L.was_no_break
i++
I i > lastmatch
matches ‘’= text[lastmatch .< i]
R matches
print(multisplit(‘a!===b=!=c’, [‘==’, ‘!=’, ‘=’]))
- Output:
a{!=}{==}b{=}{!=}c
Ada
multisplit.adb:
with Ada.Containers.Indefinite_Doubly_Linked_Lists;
with Ada.Text_IO;
procedure Multisplit is
package String_Lists is new Ada.Containers.Indefinite_Doubly_Linked_Lists
(Element_Type => String);
use type String_Lists.Cursor;
function Split
(Source : String;
Separators : String_Lists.List)
return String_Lists.List
is
Result : String_Lists.List;
Next_Position : Natural := Source'First;
Prev_Position : Natural := Source'First;
Separator_Position : String_Lists.Cursor;
Separator_Length : Natural;
Changed : Boolean;
begin
loop
Changed := False;
Separator_Position := Separators.First;
while Separator_Position /= String_Lists.No_Element loop
Separator_Length :=
String_Lists.Element (Separator_Position)'Length;
if Next_Position + Separator_Length - 1 <= Source'Last
and then Source
(Next_Position .. Next_Position + Separator_Length - 1) =
String_Lists.Element (Separator_Position)
then
if Next_Position > Prev_Position then
Result.Append
(Source (Prev_Position .. Next_Position - 1));
end if;
Result.Append (String_Lists.Element (Separator_Position));
Next_Position := Next_Position + Separator_Length;
Prev_Position := Next_Position;
Changed := True;
exit;
end if;
Separator_Position := String_Lists.Next (Separator_Position);
end loop;
if not Changed then
Next_Position := Next_Position + 1;
end if;
if Next_Position > Source'Last then
Result.Append (Source (Prev_Position .. Source'Last));
exit;
end if;
end loop;
return Result;
end Split;
Test_Input : constant String := "a!===b=!=c";
Test_Separators : String_Lists.List;
Test_Result : String_Lists.List;
Pos : String_Lists.Cursor;
begin
Test_Separators.Append ("==");
Test_Separators.Append ("!=");
Test_Separators.Append ("=");
Test_Result := Split (Test_Input, Test_Separators);
Pos := Test_Result.First;
while Pos /= String_Lists.No_Element loop
Ada.Text_IO.Put (" " & String_Lists.Element (Pos));
Pos := String_Lists.Next (Pos);
end loop;
Ada.Text_IO.New_Line;
-- other order of separators
Test_Separators.Clear;
Test_Separators.Append ("=");
Test_Separators.Append ("!=");
Test_Separators.Append ("==");
Test_Result := Split (Test_Input, Test_Separators);
Pos := Test_Result.First;
while Pos /= String_Lists.No_Element loop
Ada.Text_IO.Put (" " & String_Lists.Element (Pos));
Pos := String_Lists.Next (Pos);
end loop;
end Multisplit;
- Output:
a != == b = != c a != = = b = != c
ALGOL 68
# split a string based on a number of separators #
# MODE to hold the split results #
MODE SPLITINFO = STRUCT( STRING text # delimited string, may be empty #
, INT position # starting position of the token #
, STRING delimiter # the delimiter that terminated the token #
);
# calculates the length of string s #
OP LENGTH = ( STRING s )INT: ( UPB s + 1 ) - LWB s;
# returns TRUE if s starts with p, FALSE otherwise #
PRIO STARTSWITH = 5;
OP STARTSWITH = ( STRING s, p )BOOL: IF LENGTH p > LENGTH s THEN FALSE ELSE s[ LWB s : ( LWB s + LENGTH p ) - 1 ] = p FI;
# returns an array of SPLITINFO describing the tokens in str based on the delimiters #
# zero-length delimiters are ignored #
PRIO SPLIT = 5;
OP SPLIT = ( STRING str, []STRING delimiters )[]SPLITINFO:
BEGIN
# count the number of tokens #
# allow there to be as many tokens as characters in the string + 2 #
# that would cater for a string composed of delimiters only #
[ 1 : ( UPB str + 3 ) - LWB str ]SPLITINFO tokens;
INT token count := 0;
INT str pos := LWB str;
INT str max = UPB str;
BOOL token pending := FALSE;
# construct the tokens #
str pos := LWB str;
INT prev pos := LWB str;
token count := 0;
token pending := FALSE;
WHILE str pos <= str max
DO
BOOL found delimiter := FALSE;
FOR d FROM LWB delimiters TO UPB delimiters WHILE NOT found delimiter DO
IF LENGTH delimiters[ d ] > 0 THEN
IF found delimiter := str[ str pos : ] STARTSWITH delimiters[ d ] THEN
token count +:= 1;
tokens[ token count ] := ( str[ prev pos : str pos - 1 ], prev pos, delimiters[ d ] );
str pos +:= LENGTH delimiters[ d ];
prev pos := str pos;
token pending := FALSE
FI
FI
OD;
IF NOT found delimiter THEN
# the current character is part of s token #
token pending := TRUE;
str pos +:= 1
FI
OD;
IF token pending THEN
# there is an additional token after the final delimiter #
token count +:= 1;
tokens[ token count ] := ( str[ prev pos : ], prev pos, "" )
FI;
# return an array of the actual tokens #
tokens[ 1 : token count ]
END # SPLIT # ;
# test the SPLIT operator #
[]SPLITINFO test tokens = "a!===b=!=c" SPLIT []STRING( "==", "!=", "=" );
FOR t FROM LWB test tokens TO UPB test tokens DO
SPLITINFO token = test tokens[ t ];
print( ( "token: [", text OF token, "] at: ", whole( position OF token, 0 ), " delimiter: (", delimiter OF token, ")", newline ) )
OD
- Output:
token: [a] at: 1 delimiter: (!=) token: [] at: 4 delimiter: (==) token: [b] at: 6 delimiter: (=) token: [] at: 8 delimiter: (!=) token: [c] at: 10 delimiter: ()
Arturo
print split.by:["==" "!=" "="] "a!===b=!=c"
- Output:
a b c
AutoHotkey
Str := "a!===b=!=c"
Sep := ["==","!=", "="]
Res := StrSplit(Str, Sep)
for k, v in Res
Out .= (Out?",":"") v
MsgBox % Out
for k, v in Sep
N .= (N?"|":"") "\Q" v "\E"
MsgBox % RegExReplace(str, "(.*?)(" N ")", "$1 {$2}")
- Output:
a,,b,,c a {!=} {==}b {=} {!=}c
AWK
# syntax: GAWK -f MULTISPLIT.AWK
BEGIN {
str = "a!===b=!=c"
sep = "(==|!=|=)"
printf("str: %s\n",str)
printf("sep: %s\n\n",sep)
n = split(str,str_arr,sep,sep_arr)
printf("parsed: ")
for (i=1; i<=n; i++) {
printf("'%s'",str_arr[i])
if (i<n) { printf(" '%s' ",sep_arr[i]) }
}
printf("\n\nstrings: ")
for (i=1; i<=n; i++) {
printf("'%s' ",str_arr[i])
}
printf("\n\nseparators: ")
for (i=1; i<n; i++) {
printf("'%s' ",sep_arr[i])
}
printf("\n")
exit(0)
}
- Output:
str: a!===b=!=c sep: (==|!=|=) parsed: 'a' '!=' '' '==' 'b' '=' '' '!=' 'c' strings: 'a' '' 'b' '' 'c' separators: '!=' '==' '=' '!='
BBC BASIC
DIM sep$(2)
sep$() = "==", "!=", "="
PRINT "String splits into:"
PRINT FNmultisplit("a!===b=!=c", sep$(), FALSE)
PRINT "For extra credit:"
PRINT FNmultisplit("a!===b=!=c", sep$(), TRUE)
END
DEF FNmultisplit(s$, d$(), info%)
LOCAL d%, i%, j%, m%, p%, o$
p% = 1
REPEAT
m% = LEN(s$)
FOR i% = 0 TO DIM(d$(),1)
d% = INSTR(s$, d$(i%), p%)
IF d% IF d% < m% m% = d% : j% = i%
NEXT
IF m% < LEN(s$) THEN
o$ += """" + MID$(s$, p%, m%-p%) + """"
IF info% o$ += " (" + d$(j%) + ") " ELSE o$ += ", "
p% = m% + LEN(d$(j%))
ENDIF
UNTIL m% = LEN(s$)
= o$ + """" + MID$(s$, p%) + """"
- Output:
String splits into: "a", "", "b", "", "c" For extra credit: "a" (!=) "" (==) "b" (=) "" (!=) "c"
Bracmat
This is a surprisingly difficult task to solve in Bracmat, because in a naive solution using a alternating pattern ("=="|"!="|"=") the shorter pattern "="
would have precedence over "=="
. In the solution below the function oneOf
iterates (by recursion) over the operators, trying to match the start of the current subject string sjt
with one operator at a time, until success or reaching the end of the list with operators, whichever comes first. If no operator is found at the start of the current subject string, the variable nonOp
is extended with one byte, thereby shifting the start of the current subject string one byte to the right. Then a new attempt is made to find an operator. This is repeated until either an operator is found, in which case the unparsed string is restricted to the part of the input after the found operator, or no operator is found, in which case the whl
loop terminates.
( ( oneOf
= operator
. !arg:%?operator ?arg
& ( @(!sjt:!operator ?arg)&(!operator.!arg)
| oneOf$!arg
)
)
& "a!===b=!=c":?unparsed
& "==" "!=" "=":?operators
& whl
' ( @( !unparsed
: ?nonOp [%(oneOf$!operators:(?operator.?unparsed))
)
& put$(!nonOp str$("{" !operator "} "))
)
& put$!unparsed
& put$\n
);
- Output:
a {!=} {==} b {=} {!=} c
C
What kind of silly parsing is this?
#include <stdio.h>
#include <string.h>
void parse_sep(const char *str, const char *const *pat, int len)
{
int i, slen;
while (*str != '\0') {
for (i = 0; i < len || !putchar(*(str++)); i++) {
slen = strlen(pat[i]);
if (strncmp(str, pat[i], slen)) continue;
printf("{%.*s}", slen, str);
str += slen;
break;
}
}
}
int main()
{
const char *seps[] = { "==", "!=", "=" };
parse_sep("a!===b=!=c", seps, 3);
return 0;
}
- Output:
a{!=}{==}b{=}{!=}c
C#
Extra Credit Solution
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace Multisplit
{
internal static class Program
{
private static void Main(string[] args)
{
foreach (var s in "a!===b=!=c".Multisplit(true, "==", "!=", "=")) // Split the string and return the separators.
{
Console.Write(s); // Write the returned substrings and separators to the console.
}
Console.WriteLine();
}
private static IEnumerable<string> Multisplit(this string s, bool returnSeparators = false,
params string[] delimiters)
{
var currentString = new StringBuilder(); /* Initiate the StringBuilder. This will hold the current string to return
* once we find a separator. */
int index = 0; // Initiate the index counter at 0. This tells us our current position in the string to read.
while (index < s.Length) // Loop through the string.
{
// This will get the highest priority separator found at the current index, or null if there are none.
string foundDelimiter =
(from delimiter in delimiters
where s.Length >= index + delimiter.Length &&
s.Substring(index, delimiter.Length) == delimiter
select delimiter).FirstOrDefault();
if (foundDelimiter != null)
{
yield return currentString.ToString(); // Return the current string.
if (returnSeparators) // Return the separator, if the user specified to do so.
yield return
string.Format("{{\"{0}\", ({1}, {2})}}",
foundDelimiter,
index, index + foundDelimiter.Length);
currentString.Clear(); // Clear the current string.
index += foundDelimiter.Length; // Move the index past the current separator.
}
else
{
currentString.Append(s[index++]); // Add the character at this index to the current string.
}
}
if (currentString.Length > 0)
yield return currentString.ToString(); // If we have anything left over, return it.
}
}
}
- Output:
a{"!=", (1, 3)}{"==", (3, 5)}b{"=", (6, 7)}{"!=", (7, 9)}c
C++
using the Boost library tokenizer!
#include <iostream>
#include <boost/tokenizer.hpp>
#include <string>
int main( ) {
std::string str( "a!===b=!=c" ) , output ;
typedef boost::tokenizer<boost::char_separator<char> > tokenizer ;
boost::char_separator<char> separator ( "==" , "!=" ) , sep ( "!" ) ;
tokenizer mytok( str , separator ) ;
tokenizer::iterator tok_iter = mytok.begin( ) ;
for ( ; tok_iter != mytok.end( ) ; ++tok_iter )
output.append( *tok_iter ) ;
tokenizer nexttok ( output , sep ) ;
for ( tok_iter = nexttok.begin( ) ; tok_iter != nexttok.end( ) ;
++tok_iter )
std::cout << *tok_iter << " " ;
std::cout << '\n' ;
return 0 ;
}
- Output:
a b c
Without external libraries
#include <cstdint>
#include <iomanip>
#include <iostream>
#include <string>
#include <vector>
struct Split_data {
std::string segment;
int32_t index;
std::string separator;
};
std::vector<Split_data> multi_split(const std::string& text, const std::vector<std::string>& separators) {
std::vector<Split_data> result;
uint64_t i = 0;
std::string segment = "";
while ( i < text.length() ) {
bool found = false;
for ( std::string separator : separators ) {
if ( text.substr(i, separator.length()) == separator ) {
found = true;
result.emplace_back(segment, i, separator);
i += separator.length();
segment = "";
break;
}
}
if ( ! found ) {
segment += text[i];
i += 1;
}
}
result.emplace_back(segment, i, "");
return result;
}
int main() {
for ( Split_data splits : multi_split("a!===b=!=c", { "==", "!=", "=" } ) ) {
std::cout << std::left << std::setw(3) << "\"" + splits.segment + "\""
<< std::setw(18) << " ( split with \"" + splits.separator + "\""
<< " at index " << splits.index << " )" << std::endl;
}
}
- Output:
"a" ( split with "!=" at index 1 ) "" ( split with "==" at index 3 ) "b" ( split with "=" at index 6 ) "" ( split with "!=" at index 7 ) "c" ( split with "" at index 10 )
C++23
/* multisplit.cpp */
#include <features.h>
#include <iostream>
#include <string>
#include <vector>
#include <format>
/* C++23 example for Multisplit 6 Jan 2024
email:
spikeysnack@gmail.com
compile:
g++-13 -std=c++23 -Wall -o multisplit multisplit.cpp
*/
// extra info
#define _EXTRA
// aliases
using std::string;
using std::vector;
using str_vec = vector<string>;
using std::cout;
// constants
constexpr static const size_t npos = -1;
// function signatures
string replace_all(string& str, string& remove, string& insert );
str_vec split_on_delim(string& str, const string& delims);
str_vec Multisplit( string& input, const str_vec& seps);
// functions
// replace all substrings in string
// a = "dogs and cats and dogs and cats and birds"
// replace(a, "cats" , "fish");
// ==> "dogs and fish and dogs and fish and birds"
string replace_all(string& str,
const string& remove,
const string& insert ){
string s{str};
string::size_type pos = 0;
#ifdef _EXTRA
const string rightarrow{"\u2B62"}; //unicode arrow
auto ex = std::format("match: {}\t{} ", remove, rightarrow);
std::cerr << ex;
#endif
while ((pos = s.find(remove, pos)) != npos){
s.replace(pos, remove.size(), insert);
pos++;
}
return s;
}
// create a string vector from a string,
// split on a delimiter string
// x = "ab:cde:fgh:ijk"
// split_on_delim( x, ":");
// ==> { "ab", "cde", "fgh", "ijk" }
str_vec split_on_delim(string& str, const string& delims) {
string::size_type beg, pos = 0;
str_vec sv;
string tmp;
while ( (beg = str.find_first_not_of(delims, pos)) != npos ){
pos = str.find_first_of(delims, beg + 1);
tmp = { str.substr(beg, pos - beg) };
sv.push_back(tmp);
}
return sv;
}
str_vec Multisplit( string& input, const str_vec& seps) {
string s1{input};
str_vec sv;
for( auto sep : seps){
s1 = replace_all(s1, sep, "^"); // space sep
#ifdef _EXTRA
std::cerr << s1 << "\n";
#endif
sv = split_on_delim(s1, "^"); // split
}
return sv;
}
/* main program */
int main(){
string sample{"a!===b=!=c"};
const str_vec seps {"!=", "==", "="};
auto s = std::format("sample: \t{}\n", sample);
cout << s;
auto sv = Multisplit(sample, seps);
for( auto s : sv){
auto out = std::format( "{}\t" , s);
cout << out;
}
cout << "\n";
return 0;
}
// end
- Output:
sample: a!===b=!=c match: != ⭢ a^==b=^c match: == ⭢ a^^b=^c match: = ⭢ a^^b^^c a b c
CoffeeScript
multi_split = (text, separators) ->
# Split text up, using separators to break up text and discarding
# separators.
#
# Returns an array of strings, which can include empty strings when
# separators are found either adjacent to each other or at the
# beginning/end of the text.
#
# Separators have precedence, according to their order in the array,
# and each separator should be at least one character long.
result = []
i = 0
s = ''
while i < text.length
found = false
for separator in separators
if text.substring(i, i + separator.length) == separator
found = true
i += separator.length
result.push s
s = ''
break
if !found
s += text[i]
i += 1
result.push s
result
console.log multi_split 'a!===b=!=c', ['==', '!=', '='] # [ 'a', '', 'b', '', 'c' ]
console.log multi_split '', ['whatever'] # [ '' ]
D
import std.stdio, std.array, std.algorithm;
string[] multiSplit(in string s, in string[] divisors) pure nothrow {
string[] result;
auto rest = s.idup;
while (true) {
bool done = true;
string delim;
{
string best;
foreach (const div; divisors) {
const maybe = rest.find(div);
if (maybe.length > best.length) {
best = maybe;
delim = div;
done = false;
}
}
}
result.length++;
if (done) {
result.back = rest.idup;
return result;
} else {
const t = rest.findSplit(delim);
result.back = t[0].idup;
rest = t[2];
}
}
}
void main() {
"a!===b=!=c"
.multiSplit(["==", "!=", "="])
.join(" {} ")
.writeln;
}
- Output:
(separator locations indicated by braces)
a {} {} b {} {} c
Delphi
program Multisplit;
{$APPTYPE CONSOLE}
uses
System.SysUtils;
begin
write('[');
for var s in 'a!===b=!=c'.Split(['==', '!=', '=']) do
write(s.QuotedString('"'), ' ');
write(']');
readln;
end.
- Output:
["a" "" "b" "" "c" ]
EasyLang
proc multisplit str$ sep$[] . .
repeat
min = 1 / 0
for sep$ in sep$[]
pos = strpos str$ sep$
if pos > 0 and pos < min
min = pos
msep$ = sep$
.
.
until min = 1 / 0
write substr str$ 1 (min - 1) & "{" & msep$ & "}"
str$ = substr str$ (min + len msep$) 9999
.
print str$
.
multisplit "a!===b=!=c" [ "==" "!=" "=" ]
- Output:
a{!=}{==}b{=}{!=}c
Elixir
iex(1)> Regex.split(~r/==|!=|=/, "a!====b=!=c")
["a", "", "", "b", "", "c"]
Erlang
20> re:split("a!===b=!=c", "==|!=|=",[{return, list}]). ["a",[],"b",[],"c"]
F#
If we ignore the "Extra Credit" requirements and skip 'ordered separators' condition (i.e. solving absolute different task), this is exactly what one of the overloads of .NET's String.Split
method does. Using F# Interactive:
> "a!===b=!=c".Split([|"=="; "!="; "="|], System.StringSplitOptions.None);;
val it : string [] = [|"a"; ""; "b"; ""; "c"|]
> "a!===b=!=c".Split([|"="; "!="; "=="|], System.StringSplitOptions.None);;
val it : string [] = [|"a"; ""; ""; "b"; ""; "c"|]
System.StringSplitOptions.None
specifies that empty strings should be included in the result.
Factor
USING: arrays fry kernel make sequences ;
IN: rosetta-code.multisplit
: first-subseq ( seq separators -- n separator )
tuck
[ [ subseq-index ] dip 2array ] withd map-index sift-keys
[ drop f f ] [ [ first ] infimum-by first2 rot nth ] if-empty ;
: multisplit ( string separators -- seq )
'[
[ dup _ first-subseq dup ] [
length -rot cut-slice [ , ] dip swap tail-slice
] while 2drop ,
] { } make ;
- Output:
> "a!===b=!=c" { "==" "!=" "=" } multisplit [ >string ] map . { "a" "" "b" "" "c" }
FreeBASIC
FreeBASIC does not have a built in 'split' function so we need to write one:
' FB 1.05.0 Win64
Sub Split(s As String, sepList() As String, result() As String, removeEmpty As Boolean = False, showSepInfo As Boolean = False)
If s = "" OrElse UBound(sepList) = -1 Then
Redim result(0)
result(0) = s
Return
End If
Dim As Integer i = 0, j, count = 0, empty = 0, length
Dim As Integer position(len(s) + 1)
Dim As Integer sepIndex(1 To len(s))
Dim As Integer sepLength(len(s))
position(0) = 0 : sepLength(0) = 1
While i < Len(s)
For j = lbound(sepList) To ubound(sepList)
length = len(sepList(j))
If length = 0 Then Continue For '' ignore blank separators
If mid(s, i + 1, length) = sepList(j) Then
count += 1
position(count) = i + 1
sepIndex(count) = j
sepLength(count) = length
i += length - 1
Exit For
End If
Next j
i += 1
Wend
Redim result(count)
If count = 0 Then
If showSepInfo Then
Print "No delimiters were found" : Print
End If
result(0) = s
Return
End If
position(count + 1) = len(s) + 1
For i = 1 To count + 1
length = position(i) - position(i - 1) - sepLength(i - 1)
result(i - 1 - empty) = Mid(s, position(i - 1) + sepLength(i - 1), length)
If removeEmpty AndAlso cbool(length = 0) Then empty += 1
Next
If empty > 0 Then Redim Preserve result(count - empty)
If showSepInfo Then
Print "The 1-based indices of the delimiters found are : "
Print
For x As Integer = 1 To count
Print "At index"; position(x), sepList(sepIndex(x))
Next
Print
End If
End Sub
Dim s As String = "a!===b=!=c"
Print "The string to be split is : "; s
Print
Dim a() As String '' to hold results
Dim b(1 To 3) As String = {"==", "!=", "="} '' separators to be used in order of priority (highest first)
split s, b(), a(), False, True '' show separator info
Print "The sub-strings are : "
Print
For i As integer = 0 To ubound(a)
Print Using "##"; i + 1;
Print " : "; a(i)
Next
Print
Print "Press any key to quit"
Sleep
- Output:
The 1-based indices of the delimiters found are : At index 2 != At index 4 == At index 7 = At index 8 != The sub-strings are : 1 : a 2 : 3 : b 4 : 5 : c
Go
package main
import (
"fmt"
"strings"
)
func ms(txt string, sep []string) (ans []string) {
for txt > "" {
sepMatch := ""
posMatch := len(txt)
for _, s := range sep {
if p := strings.Index(txt, s); p >= 0 && p < posMatch {
sepMatch = s
posMatch = p
}
}
ans = append(ans, txt[:posMatch])
txt = txt[posMatch+len(sepMatch):]
}
return
}
func main() {
fmt.Printf("%q\n", ms("a!===b=!=c", []string{"==", "!=", "="}))
}
- Output:
["a" "" "b" "" "c"]
Haskell
import Data.List
( genericLength,
intercalate,
isPrefixOf,
stripPrefix,
)
------------------------ MULTISPLIT ----------------------
multisplit :: [String] -> String -> [(String, String, Int)]
multisplit delims = go [] 0
where
go acc pos [] = [(acc, [], pos)]
go acc pos l@(s : sx) =
case trysplit delims l of
Nothing -> go (s : acc) (pos + 1) sx
Just (d, sxx) ->
(acc, d, pos) :
go [] (pos + genericLength d) sxx
trysplit :: [String] -> String -> Maybe (String, String)
trysplit delims s =
case filter (`isPrefixOf` s) delims of
[] -> Nothing
(d : _) -> Just (d, (\(Just x) -> x) $ stripPrefix d s)
--------------------------- TEST -------------------------
main :: IO ()
main = do
let parsed = multisplit ["==", "!=", "="] "a!===b=!=c"
mapM_
putStrLn
[ "split string:",
intercalate "," $ map (\(a, _, _) -> a) parsed,
"with [(string, delimiter, offset)]:",
show parsed
]
- Output:
split string: a,,b,,c with [(string, delimiter, offset)]: [("a","!=",1),("","==",3),("b","=",6),("","!=",7),("c","",10)]
Or as a fold:
import Data.List (find, isPrefixOf, foldl') --'
import Data.Bool (bool)
multiSplit :: [String] -> String -> [(String, String, Int)]
multiSplit ds s =
let (ts, ps, o) =
foldl' --'
(\(tokens, parts, offset) (c, i) ->
let inDelim = offset > i
in maybe
(bool (c : tokens) tokens inDelim, parts, offset)
(\x -> ([], (tokens, x, i) : parts, i + length x))
(bool (find (`isPrefixOf` drop i s) ds) Nothing inDelim))
([], [], 0)
(zip s [0 ..])
in reverse $ (ts, [], length s) : ps
main :: IO ()
main = print $ multiSplit ["==", "!=", "="] "a!===b=!=c"
- Output:
[("a","!=",1),("","==",3),("b","=",6),("","!=",7),("c","",10)]
Icon and Unicon
- Output:
a != == b = != c a != (2) == (4) b = (7) != (8) c
J
multisplit=: {{
'begin sep'=. |:bs=. _,~/:~;(,.&.>i.@#) y I.@E.L:0 x NB.
len=. #@>y NB.
r=. i.3 0
j=. k=. 0
while.j<#x do.
while. j>k{begin do. k=.k+1 end.
'b s'=. k{bs NB. character index where separator appears, separator index
if. _=b do. r,.(j}.x);'';'' return. end.
txt=. (j + i. b-j){x
j=. b+s{len
r=.r,.txt;(s{::y);b
end.
}}
Explanation:
First find all potentially relevant separator instances, and sort them in increasing order, by starting location and separator index. sep
is separator index, and begin
is starting location.
Then, loop through the possibilities, skipping over those separators which would overlap with previously used separators.
The result consists of three rows: The first row is the extracted substrings, the second and third rows are the "extra credit" part -- for each extracted substring: the following separator and the position in the original string where that separator started. Note that the very last substring does not have a separator following it, so the extra credit part is blank for that substring.
Example use:
S multisplit '==';'!=';'='
┌──┬──┬─┬──┬─┐
│a │ │b│ │c│
├──┼──┼─┼──┼─┤
│!=│==│=│!=│ │
├──┼──┼─┼──┼─┤
│1 │3 │6│7 │ │
└──┴──┴─┴──┴─┘
S multisplit '=';'!=';'=='
┌──┬─┬─┬─┬──┬─┐
│a │ │ │b│ │c│
├──┼─┼─┼─┼──┼─┤
│!=│=│=│=│!=│ │
├──┼─┼─┼─┼──┼─┤
│1 │3│4│6│7 │ │
└──┴─┴─┴─┴──┴─┘
'X123Y' multisplit '1';'12';'123';'23';'3'
┌─┬──┬─┐
│X│ │Y│
├─┼──┼─┤
│1│23│ │
├─┼──┼─┤
│1│2 │ │
└─┴──┴─┘
Java
import java.util.*;
public class MultiSplit {
public static void main(String[] args) {
System.out.println("Regex split:");
System.out.println(Arrays.toString("a!===b=!=c".split("==|!=|=")));
System.out.println("\nManual split:");
for (String s : multiSplit("a!===b=!=c", new String[]{"==", "!=", "="}))
System.out.printf("\"%s\" ", s);
}
static List<String> multiSplit(String txt, String[] separators) {
List<String> result = new ArrayList<>();
int txtLen = txt.length(), from = 0;
for (int to = 0; to < txtLen; to++) {
for (String sep : separators) {
int sepLen = sep.length();
if (txt.regionMatches(to, sep, 0, sepLen)) {
result.add(txt.substring(from, to));
from = to + sepLen;
to = from - 1; // compensate for the increment
break;
}
}
}
if (from < txtLen)
result.add(txt.substring(from));
return result;
}
}
Regex split: [a, , b, , c] Manual split: "a" "" "b" "" "c"
JavaScript
ES5
Based on Ruby example.
RegExp.escape = function(text) {
return text.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, "\\$&");
}
multisplit = function(string, seps) {
var sep_regex = RegExp(_.map(seps, function(sep) { return RegExp.escape(sep); }).join('|'));
return string.split(sep_regex);
}
ES6
Without importing an external library, and generalizing to allow for any set of delimiters (avoiding the need for a hand-crafted regex):
(Multisplit by fold example)
(() => {
/// Delimiter list -> String -> list of parts, delimiters, offsets
// multiSplit :: [String] -> String ->
// [{part::String, delim::String, offset::Int}]
const multiSplit = (ds, s) => {
const
dcs = map(chars, ds),
xs = chars(s),
dct = foldl(
(a, c, i, s) => {
const
inDelim = a.offset > i,
mb = inDelim ? (
nothing('')
) : find(d => isPrefixOf(d, drop(i, xs)), dcs);
return mb.nothing ? {
tokens: a.tokens.concat(inDelim ? (
[]
) : [c]),
parts: a.parts,
offset: a.offset
} : {
tokens: [],
parts: append(a.parts, [{
part: intercalate('', a.tokens),
delim: intercalate('', mb.just),
offset: i
}]),
offset: i + length(mb.just)
};
}, {
tokens: [],
parts: [],
offset: 0
}, xs
);
return append(dct.parts, [{
part: intercalate('', dct.tokens),
delim: "",
offset: length(s)
}]);
};
// GENERIC FUNCTIONS -----------------------------------------------------
// append (++) :: [a] -> [a] -> [a]
const append = (xs, ys) => xs.concat(ys);
// chars :: String -> [Char]
const chars = s => s.split('');
// drop :: Int -> [a] -> [a]
// drop :: Int -> String -> String
const drop = (n, xs) => xs.slice(n);
// find :: (a -> Bool) -> [a] -> Maybe a
const find = (p, xs) => {
for (var i = 0, lng = xs.length; i < lng; i++) {
var x = xs[i];
if (p(x)) return just(x);
}
return nothing('Not found');
};
// foldl :: (a -> b -> a) -> a -> [b] -> a
const foldl = (f, a, xs) => xs.reduce(f, a);
// intercalate :: String -> [String] -> String
const intercalate = (s, xs) => xs.join(s);
// isPrefixOf takes two lists or strings and returns
// true iff the first is a prefix of the second.
// isPrefixOf :: [a] -> [a] -> Bool
// isPrefixOf :: String -> String -> Bool
const isPrefixOf = (xs, ys) => {
const pfx = (xs, ys) => xs.length ? (
ys.length ? xs[0] === ys[0] && pfx(
xs.slice(1), ys.slice(1)
) : false
) : true;
return typeof xs !== 'string' ? pfx(xs, ys) : ys.startsWith(xs);
};
// just :: a -> Just a
const just = x => ({
nothing: false,
just: x
});
// length :: [a] -> Int
const length = xs => xs.length;
// map :: (a -> b) -> [a] -> [b]
const map = (f, xs) => xs.map(f);
// nothing :: () -> Nothing
const nothing = (optionalMsg) => ({
nothing: true,
msg: optionalMsg
});
// show :: Int -> a -> Indented String
// show :: a -> String
const show = (...x) =>
JSON.stringify.apply(
null, x.length > 1 ? [x[1], null, x[0]] : x
);
// TEST ------------------------------------------------------------------
const
strTest = 'a!===b=!=c',
delims = ['==', '!=', '='];
return show(2,
multiSplit(delims, strTest)
);
})();
- Output:
[ { "part": "a", "delim": "!=", "offset": 1 }, { "part": "", "delim": "==", "offset": 3 }, { "part": "b", "delim": "=", "offset": 6 }, { "part": "", "delim": "!=", "offset": 7 }, { "part": "c", "delim": "", "offset": 10 } ]
jq
This version does not use regular expressions, which are only supported in later versions of jq.
multisplit(delims) produces the desired parse using an intermediate parse produced by multisplit_parse(delims).
Both helper functions could be made inner functions of the main function, but are kept separate here for clarity.
# peeloff(delims) either peels off a delimiter or
# a single character from the input string.
# The input should be a nonempty string, and delims should be
# a non-empty array of delimiters;
# return [peeledoff, remainder]
# where "peeledoff" is either [delim] or the peeled off character:
def peeloff(delims):
delims[0] as $delim
| if startswith($delim) then [ [$delim], .[ ($delim|length):]]
elif (delims|length)>1 then peeloff(delims[1:])
else [ .[0:1], .[1:]]
end ;
# multisplit_parse(delims) produces an intermediate parse.
# Input must be of the parse form: [ string, [ delim ], ... ]
# Output is of the same form.
def multisplit_parse(delims):
if (delims|length) == 0 or length == 0 then .
else
.[length-1] as $last
| .[0:length-1] as $butlast
| if ($last|type) == "array" then . # all done
elif $last == "" then .
else
($last | peeloff(delims)) as $p # [ peeledoff, next ]
| $p[0] as $peeledoff
| $p[1] as $next
| if ($next|length) > 0
then $butlast + [$peeledoff] + ([$next]|multisplit_parse(delims))
else $butlast + $p
end
end
end ;
def multisplit(delims):
[.] | multisplit_parse(delims)
# insert "" between delimiters, compress strings, remove trailing "" if any
| reduce .[] as $x ([];
if length == 0 then [ $x ]
elif ($x|type) == "array"
then if (.[length-1]|type) == "array" then . + ["", $x]
else . + [$x]
end
elif .[length-1]|type == "string"
then .[0:length-1] + [ .[length-1] + $x ]
else . + [$x]
end ) ;
Examples
("a!===b=!=c", "aaa!===bbb=!=ccc") | multisplit( ["==", "!=", "="] )
- Output:
$ jq -n -M -c -f multisplit.jq ["a",["!="],"",["=="],"b",["="],"",["!="],"c"] ["aaa",["!="],"",["=="],"bbb",["="],"",["!="],"ccc"]
Julia
From REPL:
julia> split(s, r"==|!=|=")
5-element Array{SubString{String},1}:
"a"
""
"b"
""
"c"
Kotlin
// version 1.0.6
fun main(args: Array<String>) {
val input = "a!===b=!=c"
val delimiters = arrayOf("==", "!=", "=")
val output = input.split(*delimiters).toMutableList()
for (i in 0 until output.size) {
if (output[i].isEmpty()) output[i] = "empty string"
else output[i] = "\"" + output[i] + "\""
}
println("The splits are:")
println(output)
// now find positions of matched delimiters
val matches = mutableListOf<Pair<String, Int>>()
var index = 0
while (index < input.length) {
var matched = false
for (d in delimiters) {
if (input.drop(index).take(d.length) == d) {
matches.add(d to index)
index += d.length
matched = true
break
}
}
if (!matched) index++
}
println("\nThe delimiters matched and the indices at which they occur are:")
println(matches)
}
- Output:
The splits are: ["a", empty string, "b", empty string, "c"] The delimiters matched and the indices at which they occur are: [(!=, 1), (==, 3), (=, 6), (!=, 7)]
Lua
The function I've written here is really excessive for this task but it has historically been hard to find example code for a good Lua split function on the Internet. This one behaves the same way as Julia's Base.split and I've included a comment describing its precise operation.
--[[
Returns a table of substrings by splitting the given string on
occurrences of the given character delimiters, which may be specified
as a single- or multi-character string or a table of such strings.
If chars is omitted, it defaults to the set of all space characters,
and keep is taken to be false. The limit and keep arguments are
optional: they are a maximum size for the result and a flag
determining whether empty fields should be kept in the result.
]]
function split (str, chars, limit, keep)
local limit, splitTable, entry, pos, match = limit or 0, {}, "", 1
if keep == nil then keep = true end
if not chars then
for e in string.gmatch(str, "%S+") do
table.insert(splitTable, e)
end
return splitTable
end
while pos <= str:len() do
match = nil
if type(chars) == "table" then
for _, delim in pairs(chars) do
if str:sub(pos, pos + delim:len() - 1) == delim then
match = string.len(delim) - 1
break
end
end
elseif str:sub(pos, pos + chars:len() - 1) == chars then
match = string.len(chars) - 1
end
if match then
if not (keep == false and entry == "") then
table.insert(splitTable, entry)
if #splitTable == limit then return splitTable end
entry = ""
end
else
entry = entry .. str:sub(pos, pos)
end
pos = pos + 1 + (match or 0)
end
if entry ~= "" then table.insert(splitTable, entry) end
return splitTable
end
local multisplit = split("a!===b=!=c", {"==", "!=", "="})
-- Returned result is a table (key/value pairs) - display all entries
print("Key\tValue")
print("---\t-----")
for k, v in pairs(multisplit) do
print(k, v)
end
- Output:
Key Value --- ----- 1 a 2 3 b 4 5 c
M2000 Interpreter
Code from BBC BASIC with little changes to fit in M2000.
Module CheckIt {
DIM sep$()
sep$() = ("==", "!=", "=")
PRINT "String splits into:"
FNmultisplit("a!===b=!=c", sep$(), FALSE)
PRINT "For extra credit:"
FNmultisplit("a!===b=!=c", sep$(), TRUE)
END
SUB FNmultisplit(s$, d$(), info%)
LOCAL d%, i%, j%, m%, p%, o$
p% = 1
REPEAT {
m% = LEN(s$)
FOR i% = 0 TO DIMENSION(d$(),1)-1
d% = INSTR(s$, d$(i%), p%)
IF d% THEN IF d% < m% THEN m% = d% : j% = i%
NEXT I%
IF m% < LEN(s$) THEN {
o$ += """" + MID$(s$, p%, m%-p%) + """"
IF info% THEN {o$ += " (" + d$(j%) + ") "} ELSE o$ += ", "
p% = m% + LEN(d$(j%))
}
} UNTIL m% = LEN(s$)
PRINT o$ + """" + MID$(s$, p%) + """"
END SUB
}
CheckIt
Mathematica /Wolfram Language
Just use the built-in function "StringSplit":
StringSplit["a!===b=!=c", {"==", "!=", "="}]
- Output:
{a,,b,,c}
MiniScript
parseSep = function(s, pats)
result = []
startPos = 0
pos = 0
while pos < s.len
for pat in pats
if s[pos : pos+pat.len] != pat then continue
result.push s[startPos : pos]
result.push "{" + pat + "}"
startPos = pos + pat.len
pos = startPos - 1
break
end for
pos = pos + 1
end while
return result
end function
print parseSep("a!===b=!=c", ["==", "!=", "="])
- Output:
["a", "{!=}", "", "{==}", "b", "{=}", "", "{!=}"]
newLISP
(define (multi-split str seps)
(let (parsed
(find-all
(string {((.*?)(} (join (map string seps) "|") {))|(.+)$})
str
(if (= "" $3) (list $4) (list $2 $3))))
(list parsed (map first parsed))))
(multi-split "a!===b=!=c" '(== != =))
- Output:
((("a" "!=") ("" "==") ("b" "=") ("" "!=") ("c")) ("a" "" "b" "" "c"))
Nim
import strutils
iterator tokenize(text: string; sep: openArray[string]): tuple[token: string, isSep: bool] =
var i, lastMatch = 0
while i < text.len:
for j, s in sep:
if text[i..text.high].startsWith s:
if i > lastMatch: yield (text[lastMatch ..< i], false)
yield (s, true)
lastMatch = i + s.len
i += s.high
break
inc i
if i > lastMatch: yield (text[lastMatch ..< i], false)
for token, isSep in "a!===b=!=c".tokenize(["==", "!=", "="]):
if isSep: stdout.write '{',token,'}'
else: stdout.write token
echo ""
- Output:
a{!=}{==}b{=}{!=}c
PascalABC.NET
// Multisplit. Nigel Galloway: August 16th., 2024
## print('a!===b=!=c'.Split(|'==','!=','='|,System.StringSplitOptions.None))
- Output:
[a,,b,,c]
Perl
sub multisplit {
my ($sep, $string, %opt) = @_ ;
$sep = join '|', map quotemeta($_), @$sep;
$sep = "($sep)" if $opt{keep_separators};
split /$sep/, $string, -1;
}
print "'$_' " for multisplit ['==','!=','='], "a!===b=!=c";
print "\n";
print "'$_' " for multisplit ['==','!=','='], "a!===b=!=c", keep_separators => 1;
print "\n";
- Output:
'a' '' 'b' '' 'c' 'a' '!=' '' '==' 'b' '=' '' '!=' 'c'
Phix
with javascript_semantics procedure multisplit(string text, sequence delims) integer k = 1, kdx while true do integer kmin = 0 for i=1 to length(delims) do integer ki = match(delims[i],text,k) if ki!=0 then if kmin=0 or ki<kmin then kmin = ki kdx = i end if end if end for string token = text[k..kmin-1], delim = iff(kmin=0?"":sprintf(", delimiter (%s) at %d",{delims[kdx],kmin})) printf(1,"Token: [%s] at %d%s\n",{token,k,delim}) if kmin=0 then exit end if k = kmin+length(delims[kdx]) end while end procedure multisplit("a!===b=!=c",{"==","!=","="})
- Output:
Token: [a] at 1, delimiter (!=) at 2 Token: [] at 4, delimiter (==) at 4 Token: [b] at 6, delimiter (=) at 7 Token: [] at 8, delimiter (!=) at 8 Token: [c] at 10
PicoLisp
(de multisplit (Str Sep)
(setq Sep (mapcar chop Sep))
(make
(for (S (chop Str) S)
(let L
(make
(loop
(T (find head Sep (circ S))
(link
(list
(- (length Str) (length S))
(pack (cut (length @) 'S)) ) ) )
(link (pop 'S))
(NIL S (link NIL)) ) )
(link (pack (cdr (rot L))))
(and (car L) (link @)) ) ) ) )
(println (multisplit "a!===b=!=c" '("==" "!=" "=")))
(println (multisplit "a!===b=!=c" '("=" "!=" "==")))
- Output:
("a" (1 "!=") NIL (3 "==") "b" (6 "=") NIL (7 "!=") "c") ("a" (1 "!=") NIL (3 "=") NIL (4 "=") "b" (6 "=") NIL (7 "!=") "c")
Pike
string input = "a!===b=!=c";
array sep = ({"==", "!=", "=" });
array result = replace(input, sep, `+("\0", sep[*], "\0"))/"\0";
result;
Result: ({ "a", "!=", "", "==", "b", "=", "", "!=", "c" })
int pos = 0;
foreach(result; int index; string data)
{
if ((<"==", "!=", "=">)[data])
result[index] = ({ data, pos });
pos+=sizeof(data);
}
result;
Result: ({"a", ({"!=", 1}), "", ({"==", 3}), "b", ({"=", 6}), "", ({"!=", 7}), "c"})
PowerShell
$string = "a!===b=!=c"
$separators = [regex]"(==|!=|=)"
$matchInfo = $separators.Matches($string) |
Select-Object -Property Index, Value |
Group-Object -Property Value |
Select-Object -Property @{Name="Separator"; Expression={$_.Name}},
Count,
@{Name="Position" ; Expression={$_.Group.Index}}
$matchInfo
- Output:
Separator Count Position --------- ----- -------- != 2 {1, 7} == 1 3 = 1 6
Prolog
Works with SWI-Prolog.
multisplit(_LSep, '') -->
{!},
[].
multisplit(LSep, T) -->
{next_sep(LSep, T, [], Token, Sep, T1)},
( {Token \= '' },[Token], {!}; []),
( {Sep \= '' },[Sep], {!}; []),
multisplit(LSep, T1).
next_sep([], T, Lst, Token, Sep, T1) :-
% if we can't find any separator, the game is over
( Lst = [] ->
Token = T, Sep = '', T1 = '';
% we sort the list to get nearest longest separator
predsort(my_sort, Lst, [(_,_, Sep)|_]),
atomic_list_concat([Token|_], Sep, T),
atom_concat(Token, Sep, Tmp),
atom_concat(Tmp, T1, T)).
next_sep([HSep|TSep], T, Lst, Token, Sep, T1) :-
sub_atom(T, Before, Len, _, HSep),
next_sep(TSep, T, [(Before, Len,HSep) | Lst], Token, Sep, T1).
next_sep([_HSep|TSep], T, Lst, Token, Sep, T1) :-
next_sep(TSep, T, Lst, Token, Sep, T1).
my_sort(<, (N1, _, _), (N2, _, _)) :-
N1 < N2.
my_sort(>, (N1, _, _), (N2, _, _)) :-
N1 > N2.
my_sort(>, (N, N1, _), (N, N2, _)) :-
N1 < N2.
my_sort(<, (N, N1, _), (N, N2, _)) :-
N1 > N2.
- Output:
?- multisplit(['==', '!=', '='], 'ax!===b=!=c', Lst, []). Lst = [ax,'!=',==,b,=,'!=',c] .
Python
Procedural
Using regular expressions:
>>> import re
>>> def ms2(txt="a!===b=!=c", sep=["==", "!=", "="]):
if not txt or not sep:
return []
ans = m = []
for m in re.finditer('(.*?)(?:' + '|'.join('('+re.escape(s)+')' for s in sep) + ')', txt):
ans += [m.group(1), (m.lastindex-2, m.start(m.lastindex))]
if m and txt[m.end(m.lastindex):]:
ans += [txt[m.end(m.lastindex):]]
return ans
>>> ms2()
['a', (1, 1), '', (0, 3), 'b', (2, 6), '', (1, 7), 'c']
>>> ms2(txt="a!===b=!=c", sep=["=", "!=", "=="])
['a', (1, 1), '', (0, 3), '', (0, 4), 'b', (0, 6), '', (1, 7), 'c']
Not using regular expressions: Inspired by C-version
def multisplit(text, sep):
lastmatch = i = 0
matches = []
while i < len(text):
for j, s in enumerate(sep):
if text[i:].startswith(s):
if i > lastmatch:
matches.append(text[lastmatch:i])
matches.append((j, i)) # Replace the string containing the matched separator with a tuple of which separator and where in the string the match occured
lastmatch = i + len(s)
i += len(s)
break
else:
i += 1
if i > lastmatch:
matches.append(text[lastmatch:i])
return matches
>>> multisplit('a!===b=!=c', ['==', '!=', '='])
['a', (1, 1), (0, 3), 'b', (2, 6), (1, 7), 'c']
>>> multisplit('a!===b=!=c', ['!=', '==', '='])
['a', (0, 1), (1, 3), 'b', (2, 6), (0, 7), 'c']
Alternative version
def min_pos(List):
return List.index(min(List))
def find_all(S, Sub, Start = 0, End = -1, IsOverlapped = 0):
Res = []
if End == -1:
End = len(S)
if IsOverlapped:
DeltaPos = 1
else:
DeltaPos = len(Sub)
Pos = Start
while True:
Pos = S.find(Sub, Pos, End)
if Pos == -1:
break
Res.append(Pos)
Pos += DeltaPos
return Res
def multisplit(S, SepList):
SepPosListList = []
SLen = len(S)
SepNumList = []
ListCount = 0
for i, Sep in enumerate(SepList):
SepPosList = find_all(S, Sep, 0, SLen, IsOverlapped = 1)
if SepPosList != []:
SepNumList.append(i)
SepPosListList.append(SepPosList)
ListCount += 1
if ListCount == 0:
return [S]
MinPosList = []
for i in range(ListCount):
MinPosList.append(SepPosListList[i][0])
SepEnd = 0
MinPosPos = min_pos(MinPosList)
Res = []
while True:
Res.append( S[SepEnd : MinPosList[MinPosPos]] )
Res.append([SepNumList[MinPosPos], MinPosList[MinPosPos]])
SepEnd = MinPosList[MinPosPos] + len(SepList[SepNumList[MinPosPos]])
while True:
MinPosPos = min_pos(MinPosList)
if MinPosList[MinPosPos] < SepEnd:
del SepPosListList[MinPosPos][0]
if len(SepPosListList[MinPosPos]) == 0:
del SepPosListList[MinPosPos]
del MinPosList[MinPosPos]
del SepNumList[MinPosPos]
ListCount -= 1
if ListCount == 0:
break
else:
MinPosList[MinPosPos] = SepPosListList[MinPosPos][0]
else:
break
if ListCount == 0:
break
Res.append(S[SepEnd:])
return Res
S = "a!===b=!=c"
multisplit(S, ["==", "!=", "="]) # output: ['a', [1, 1], '', [0, 3], 'b', [2, 6], '', [1, 7], 'c']
multisplit(S, ["=", "!=", "=="]) # output: ['a', [1, 1], '', [0, 3], '', [0, 4], 'b', [0, 6], '', [1, 7], 'c']
Functional
In terms of a fold (reduce), without use of regular expressions:
'''Multisplit'''
from functools import reduce
# multiSplit :: [String] -> String -> [(String, String, Int)]
def multiSplit(separators):
'''List of triples:
[(token, separator, start index of separator].
'''
def go(s):
def f(tokensPartsOffset, ic):
tokens, parts, offset = tokensPartsOffset
i, c = ic
inDelim = offset > i
return maybe(
(
tokens if inDelim
else c + tokens, parts, offset
)
)(
lambda x: (
'',
[(tokens, x, i)] + parts,
i + len(x)
)
)(
None if inDelim else find(
s[i:].startswith
)(separators)
)
ts, ps, _ = reduce(f, enumerate(s), ('', [], 0))
return list(reversed(ps)) + [(ts, '', len(s))]
return go
# ------------------------- TEST -------------------------
# main :: IO ()
def main():
'''String split on three successive separators.'''
print(
multiSplit(['==', '!=', '='])(
'a!===b=!=c'
)
)
# ------------------ GENERIC FUNCTIONS -------------------
# find :: (a -> Bool) -> [a] -> (a | None)
def find(p):
'''Just the first element in the list that matches p,
or None if no elements match.
'''
def go(xs):
try:
return next(x for x in xs if p(x))
except StopIteration:
return None
return go
# maybe :: b -> (a -> b) -> (a | None) -> b
def maybe(v):
'''Either the default value v, if m is None,
or the application of f to x.
'''
return lambda f: lambda m: v if (
None is m
) else f(m)
# MAIN ---
if __name__ == '__main__':
main()
- Output:
[('a', '!=', 1), ('', '==', 3), ('b', '=', 6), ('', '!=', 7), ('c', '', 10)]
Racket
#lang racket
(regexp-match* #rx"==|!=|=" "a!===b=!=c" #:gap-select? #t #:match-select values)
;; => '("a" ("!=") "" ("==") "b" ("=") "" ("!=") "c")
Raku
(formerly Perl 6)
sub multisplit($str, @seps) { $str.split: / ||@seps /, :v }
my @chunks = multisplit 'a!===b=!=c==d', < == != = >;
# Print the strings.
say @chunks».Str.raku;
# Print the positions of the separators.
for grep Match, @chunks -> $s {
say "{$s.fmt: '%2s'} from {$s.from.fmt: '%2d'} to {$s.to.fmt: '%2d'}";
}
- Output:
("a", "!=", "", "==", "b", "=", "", "!=", "c", "==", "d") != from 1 to 3 == from 3 to 5 = from 6 to 7 != from 7 to 9 == from 10 to 12
Using the array @seps in a pattern automatically does alternation. By default this would do longest-term matching (that is, | semantics), but we can force it to do left-to-right matching by embedding the array in a short-circuit alternation (that is, || semantics). As it happens, with the task's specified list of separators, it doesn't make any difference.
Raku automatically returns Match objects that will stringify to the matched pattern, but can also be interrogated for their match positions, as illustrated above by post-processing the results two different ways.
REXX
/*REXX program splits a (character) string based on different separator delimiters.*/
parse arg $ /*obtain optional string from the C.L. */
if $='' then $= "a!===b=!=c" /*None specified? Then use the default*/
say 'old string:' $ /*display the old string to the screen.*/
null= '0'x /*null char. It can be most anything.*/
seps= '== != =' /*list of separator strings to be used.*/
/* [↓] process the tokens in SEPS. */
do j=1 for words(seps) /*parse the string with all the seps. */
sep=word(seps,j) /*pick a separator to use in below code*/
/* [↓] process characters in the sep.*/
do k=1 for length(sep) /*parse for various separator versions.*/
sep=strip(insert(null, sep, k), , null) /*allow imbedded "nulls" in separator, */
$=changestr(sep, $, null) /* ··· but not trailing "nulls". */
/* [↓] process strings in the input. */
do until $==old; old=$ /*keep changing until no more changes. */
$=changestr(null || null, $, null) /*reduce replicated "nulls" in string. */
end /*until*/
/* [↓] use BIF or external program.*/
sep=changestr(null, sep, '') /*remove true nulls from the separator.*/
end /*k*/
end /*j*/
showNull= ' {} ' /*just one more thing, display the ··· */
$=changestr(null, $, showNull) /* ··· showing of "null" chars. */
say 'new string:' $ /*now, display the new string to term. */
/*stick a fork in it, we're all done. */
Some older REXXes don't have a changestr BIF, so one is included here ──► CHANGESTR.REX.
output when using the default input:
old string=a!===b=!=c new string=a {} b {} c
Ring
# Project : Multisplit
str = "a!===b=!=c"
sep = "=== != =! b =!="
sep = str2list(substr(sep, " ", nl))
for n = 1 to len(sep)
pos = substr(str, sep[n])
see "" + n + ": " + substr(str, 1, pos-1) + " Sep By: " + sep[n] + nl
next
Output:
1: a! Sep By: === 2: a Sep By: != 3: a!===b Sep By: =! 4: a!=== Sep By: b 5: a!===b Sep By: =!=
RPL
« { } DUP → text seps rt rs « "" 1 text SIZE FOR j 1 CF 1 seps SIZE FOR k seps k GET DUP SIZE 1 - IF DUP2 text j ROT OVER + SUB == THEN 1 SF 'rs' ROT j 2 →LIST STO+ 'j' STO+ 'rt' SWAP STO+ seps SIZE 'k' STO ELSE DROP2 END NEXT IF 1 FC? THEN text j DUP SUB + ELSE "" END NEXT IF 1 FC? THEN 'rt' SWAP STO+ END rt rs » » 'MSPLIT' STO @ ( "text" { "seps" .. } → { { "tokens" .. } { "seps" pos ..} )
"a!===b=!=c" { "==" "!=" "=" } MSPLIT
- Output:
2: {"a" "" "b" "" "c"} 1: {"!=" 2 "==" 4 "=" 7 "!=" 8 }
Ruby
The simple method, using a regular expression to split the text.
text = 'a!===b=!=c'
separators = ['==', '!=', '=']
def multisplit_simple(text, separators)
text.split(Regexp.union(separators))
end
p multisplit_simple(text, separators) # => ["a", "", "b", "", "c"]
The version that also returns the information about the separations.
def multisplit(text, separators)
sep_regex = Regexp.union(separators)
separator_info = []
pieces = []
i = prev = 0
while i = text.index(sep_regex, i)
separator = Regexp.last_match(0)
pieces << text[prev .. i-1]
separator_info << [separator, i]
i = i + separator.length
prev = i
end
pieces << text[prev .. -1]
[pieces, separator_info]
end
p multisplit(text, separators)
# => [["a", "", "b", "", "c"], [["!=", 1], ["==", 3], ["=", 6], ["!=", 7]]]
Also demonstrating a method to rejoin the string given the separator information.
def multisplit_rejoin(info)
str = info[0].zip(info[1])[0..-2].inject("") {|str, (piece, (sep, idx))| str << piece << sep}
str << info[0].last
end
p multisplit_rejoin(multisplit(text, separators)) == text
# => true
Run BASIC
str$ = "a!===b=!=c"
sep$ = "=== != =! b =!="
while word$(sep$,i+1," ") <> ""
i = i + 1
theSep$ = word$(sep$,i," ")
split$ = word$(str$,1,theSep$)
print i;" ";split$;" Sep By: ";theSep$
wend
- Output:
1 a! Sep By: === 2 a Sep By: != 3 a!===b Sep By: =! 4 a!=== Sep By: b 5 a!===b Sep By: =!=
Scala
import scala.annotation.tailrec
def multiSplit(str:String, sep:Seq[String])={
def findSep(index:Int)=sep find (str startsWith (_, index))
@tailrec def nextSep(index:Int):(Int,Int)=
if(index>str.size) (index, 0) else findSep(index) match {
case Some(sep) => (index, sep.size)
case _ => nextSep(index + 1)
}
def getParts(start:Int, pos:(Int,Int)):List[String]={
val part=str slice (start, pos._1)
if(pos._2==0) List(part) else part :: getParts(pos._1+pos._2, nextSep(pos._1+pos._2))
}
getParts(0, nextSep(0))
}
println(multiSplit("a!===b=!=c", Seq("!=", "==", "=")))
- Output:
List(a, , b, , c)
Scheme
(use srfi-13)
(use srfi-42)
(define (shatter separators the-string)
(let loop ((str the-string) (tmp ""))
(if (string=? "" str)
(list tmp)
(if-let1 sep (find (^s (string-prefix? s str)) separators)
(cons* tmp sep
(loop (string-drop str (string-length sep)) ""))
(loop (string-drop str 1) (string-append tmp (string-take str 1)))))))
(define (glean shards)
(list-ec (: x (index i) shards)
(if (even? i)) x))
Testing:
(glean (shatter '("==" "!=" "=") "a!===b=!=c")) ("a" "" "b" "" "c") (shatter '("==" "!=" "=") "a!===b=!=c") ("a" "!=" "" "==" "b" "=" "" "!=" "c")
SenseTalk
First approach, using line delimiters. Lines are delimited by an array of separator strings, normally [CRLF, LF, CR, lineSeparator(0x2028), paragraphSeparator(0x2029)]. Supplying an alternate set of delimiters lets us split a string by a different (ordered) set of strings:
set source to "a!===b=!=c"
set separators to ["==", "!=", "="]
put each line delimited by separators of source
Output:
(a,,b,,c)
Second approach, using a pattern. SenseTalk's pattern language lets us define a pattern (a regex) which can then be used to split the string and also to display the actual separators that were found.
set source to "a!===b=!=c"
set separatorPattern to <"==" or "!=" or "=">
put source split by separatorPattern
put each occurrence of separatorPattern in source
Output:
(a,,b,,c)
(!=,==,=,!=)
Sidef
func multisplit(sep, str, keep_sep=false) {
sep = sep.map{.escape}.join('|');
var re = Regex.new(keep_sep ? "(#{sep})" : sep);
str.split(re, -1);
}
[false, true].each { |bool|
say multisplit(%w(== != =), 'a!===b=!=c', keep_sep: bool);
}
- Output:
["a", "", "b", "", "c"] ["a", "!=", "", "==", "b", "=", "", "!=", "c"]
Swift
Swift strings are purposefully not index by integers to avoid confusion and performance traps when dealing with unicode. As such the indexes returned by this method are not very helpful to a human reader, but can be used to manipulate the original string.
extension String {
func multiSplit(on seps: [String]) -> ([Substring], [(String, (start: String.Index, end: String.Index))]) {
var matches = [Substring]()
var matched = [(String, (String.Index, String.Index))]()
var i = startIndex
var lastMatch = startIndex
main: while i != endIndex {
for sep in seps where self[i...].hasPrefix(sep) {
if i > lastMatch {
matches.append(self[lastMatch..<i])
} else {
matches.append("")
}
lastMatch = index(i, offsetBy: sep.count)
matched.append((sep, (i, lastMatch)))
i = lastMatch
continue main
}
i = index(i, offsetBy: 1)
}
if i > lastMatch {
matches.append(self[lastMatch..<i])
}
return (matches, matched)
}
}
let (matches, matchedSeps) = "a!===b=!=c".multiSplit(on: ["==", "!=", "="])
print(matches, matchedSeps.map({ $0.0 }))
- Output:
["a", "", "b", "", "c"] ["!=", "==", "=", "!="]
Tcl
This simple version does not retain information about what the separators were:
proc simplemultisplit {text sep} {
set map {}; foreach s $sep {lappend map $s "\uffff"}
return [split [string map $map $text] "\uffff"]
}
puts [simplemultisplit "a!===b=!=c" {"==" "!=" "="}]
- Output:
a {} b {} c
However, to keep the match information a more sophisticated technique is best. Note that the most natural model of result here is to return the split substrings as a separate list to the match information (because the two collections of information are of different lengths).
proc multisplit {text sep} {
foreach s $sep {lappend sr [regsub -all {\W} $s {\\&}]}
set sepRE [join $sr "|"]
set pieces {}
set match {}
set start 0
while {[regexp -indices -start $start -- $sepRE $text found]} {
lassign $found x y
lappend pieces [string range $text $start [expr {$x-1}]]
lappend match [lsearch -exact $sep [string range $text {*}$found]] $x
set start [expr {$y + 1}]
}
return [list [lappend pieces [string range $text $start end]] $match]
}
Demonstration code:
set input "a!===b=!=c"
set matchers {"==" "!=" "="}
lassign [multisplit $input $matchers] substrings matchinfo
puts $substrings
puts $matchinfo
- Output:
a {} b {} c 1 1 0 3 2 6 1 7
TXR
Using text-extraction pattern language
Here, the separators are embedded into the syntax rather than appearing as a datum. Nevertheless, this illustrates how to do that small tokenizing task with various separators.
The clauses of choose
are applied in parallel, and all potentially match at the current position in the text.
However :shortest tok
means that only that clause survives (gets to propagate its bindings and position advancement) which minimizes the length of the string which is bound to the tok
variable.
The :gap 0
makes the horizontal collect repetitions strictly adjacent. This means that coll
will quit when faced with a nonmatching suffix portion of the data rather than scan forward (no gap allowed!). This creates an opportunity for the tail
variable to grab the suffix which remains, which may be an empty string.
@(next :args)
@(coll :gap 0)@(choose :shortest tok)@\
@tok@{sep /==/}@\
@(or)@\
@tok@{sep /!=/}@\
@(or)@\
@tok@{sep /=/}@\
@(end)@(end)@tail
@(output)
@(rep)"@tok" {@sep} @(end)"@tail"
@(end)
Runs:
$ ./txr multisplit.txr 'a!===b=!=c' "a" {!=} "" {==} "b" {=} "" {!=} "c" $ ./txr multisplit.txr 'a!===!==!=!==b' "a" {!=} "" {==} "" {!=} "" {=} "" {!=} "" {!=} "" {=} "b" $ ./txr multisplit.txr '' "" $ ./txr multisplit.txr 'a' "a" $ ./txr multisplit.txr 'a=' "a" {=} "" $ ./txr multisplit.txr '=' "" {=} "" $ ./txr multisplit.txr '==' "" {==} "" $ ./txr multisplit.txr '===' "" {==} "" {=} ""
Using the tok-str
function
$ txr -p '(tok-str "a!===b=!=c" #/==|!=|=/ t)'
("a" "!=" "" "==" "b" "=" "" "!=" "c")
Here the third boolean argument means "keep the material between the tokens", which in the Racket version seems to be requested by the argument #:gap-select? #:t
.
UNIX Shell
multisplit() {
local str=$1
shift
local regex=$( IFS='|'; echo "$*" )
local sep
while [[ $str =~ $regex ]]; do
sep=${BASH_REMATCH[0]}
words+=( "${str%%${sep}*}" )
seps+=( "$sep" )
str=${str#*$sep}
done
words+=( "$str" )
}
words=() seps=()
original="a!===b=!=c"
recreated=""
multisplit "$original" "==" "!=" "="
for ((i=0; i<${#words[@]}; i++)); do
printf 'w:"%s"\ts:"%s"\n' "${words[i]}" "${seps[i]}"
recreated+="${words[i]}${seps[i]}"
done
if [[ $original == $recreated ]]; then
echo "successfully able to recreate original string"
fi
- Output:
w:"a" s:"!=" w:"" s:"==" w:"b" s:"=" w:"" s:"!=" w:"c" s:"" successfully able to recreate original string
VBScript
Function multisplit(s,sep)
arr_sep = Split(sep,"|")
For i = 0 To UBound(arr_sep)
arr_s = Split(s,arr_sep(i))
s = Join(arr_s,",")
Next
multisplit = s
End Function
Function multisplit_extra(s,sep)
Set dict_sep = CreateObject("Scripting.Dictionary")
arr_sep = Split(sep,"|")
For i = 0 To UBound(arr_sep)
dict_sep.Add i,"(" & arr_sep(i) & ")"
arr_s = Split(s,arr_sep(i))
s = Join(arr_s,i)
Next
For Each key In dict_sep.Keys
s = Replace(s,key,dict_sep.Item(key))
Next
multisplit_extra = s
End Function
WScript.StdOut.Write "Standard: " & multisplit("a!===b=!=c","!=|==|=")
WScript.StdOut.WriteLine
WScript.StdOut.Write "Extra Credit: " & multisplit_extra("a!===b=!=c","!=|==|=")
WScript.StdOut.WriteLine
- Output:
Standard: a,,b,,c Extra Credit: a(!=)(==)b(=)(!=)c
V (Vlang)
Without using additional libraries or regular expressions:
fn main() {
str := "a!===b=!=c"
sep := ["==","!=","="]
println(ms(str, sep))
}
fn ms(txt string, sep []string) (map[int]string, []string, []string) {
mut ans, mut extra := []string{}, []string{}
mut place := map[int]string{}
mut temp :=''
mut vlen := 0
for slen in sep {if slen.len > vlen {vlen = slen.len}}
for cidx, cval in txt {
temp += cval.ascii_str()
for value in sep {
if temp.contains(value) && temp.len >= vlen {
place[cidx] = value
temp =''
}
}
}
for tidx, tval in txt {
for pkey, pval in place {
if tidx == pkey {
ans << ''
extra << '(' + pval + ')'
}
}
if sep.any(it.contains(tval.ascii_str())) == false {
ans << tval.ascii_str()
extra << tval.ascii_str()
}
}
println('Ending indices: $place')
println('Answer: $ans')
println('Extra: $extra')
return place, ans, extra
}
- Output:
Ending indices: {2: '!=', 4: '==', 6: '=', 8: '!='} Answer: ['a', '', '', 'b', '', '', 'c'] Extra: ['a', '(!=)', '(==)', 'b', '(=)', '(!=)', 'c'] ({2: '!=', 4: '==', 6: '=', 8: '!='}, ['a', '', '', 'b', '', '', 'c'], ['a', '(!=)', '(==)', 'b', '(=)', '(!=)', 'c'])
Wren
import "./pattern" for Pattern
import "./fmt" for Fmt
var input = "a!===b=!=c"
var p = Pattern.new("[/=/=|!/=|/=]")
var separators = p.findAll(input)
System.print("The separators matched and their starting/ending indices are:")
for (sep in separators) {
System.print(" %(Fmt.s(-4, Fmt.q(sep.text))) between %(sep.span)")
}
var parts = p.splitAll(input)
System.print("\nThe substrings between the separators are:")
System.print(parts.map { |p| (p != "") ? Fmt.q(p) : "empty string" }.toList)
- Output:
The separators matched and their starting/ending indices are: "!=" between [1, 2] "==" between [3, 4] "=" between [6, 6] "!=" between [7, 8] The substrings between the separators are: ["a", empty string, "b", empty string, "c"]
XPL0
include xpllib; \for StrLen, StrNCmp, and Print
proc MultiSplit(Str, Seps, N);
char Str; int Seps, N;
int S, Ch, SepLen;
[while Str(0) # 0 do
[for S:= 0 to N-1 do
[SepLen:= StrLen(Seps(S));
if StrNCmp(Str, Seps(S), SepLen) = 0 then
[Print(" (%s) ", Seps(S));
Str:= Str + SepLen;
S:= 100;
];
];
if S < 100 then
[Ch:= Str(0); Str:= Str+1;
if Ch # 0 then ChOut(0, Ch);
];
];
];
MultiSplit("a!===b=!=c", ["==", "!=", "="], 3)
- Output:
a (!=) (==) b (=) (!=) c
Yabasic
t$ = "a!===b=!=c"
s$ = "==,!=,="
dim n$(1)
n = token(s$, n$(), ",")
dim p(n)
do
l = len(t$)
j = 0
for i = 1 to n
p(i) = instr(t$, n$(i))
if p(i) and p(i) < l then l = p(i) : j = i end if
next
if not j print t$ : break
print left$(t$, l - 1), " with separator ", n$(j)
t$ = right$(t$, len(t$) - (l + len(n$(j))) + 1)
loop
zkl
fcn multisplit(text, sep){
lastmatch := i := 0; matches := List();
while(i < text.len()){
foreach j,s in ([0..].zip(sep)){
if(i == text.find(s,i)){
if(i > lastmatch) matches.append(text[lastmatch,i-lastmatch]);
matches.append(T(j,i)); # Replace the string containing the matched separator with a tuple of which separator and where in the string the match occured
lastmatch = i + s.len();
i += s.len()-1;
break;
}
}
i += 1;
}
if(i > lastmatch) matches.append(text[lastmatch,i-lastmatch]);
return(matches);
}
multisplit("a!===b=!=c", T("==", "!=", "=")).println();
multisplit("a!===b=!=c", T("!=", "==", "=")).println();
- Output:
L("a",L(1,1),L(0,3),"b",L(2,6),L(1,7),"c") L("a",L(0,1),L(1,3),"b",L(2,6),L(0,7),"c")