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How do I convert a comma separated string to a array?

I have the input '1,2,3' , and I need to convert it into an array.

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8 Answers 8

up vote 15 down vote accepted

Oracle provides a builtin function: dbms_utility.comma_to_table (http://download.oracle.com/docs/cd/E11882_01/appdev.112/e16760/d_util.htm#ARPLS73224).

Unfortunately, this one doesn't work with numbers:

SQL> declare
  2    l_input varchar2(4000) := '1,2,3';
  3    l_count binary_integer;
  4    l_array dbms_utility.lname_array;
  5  begin
  6    dbms_utility.comma_to_table
  7    ( list   => l_input
  8    , tablen => l_count
  9    , tab    => l_array
 10    );
 11    dbms_output.put_line(l_count);
 12    for i in 1 .. l_count
 13    loop
 14      dbms_output.put_line
 15      ( 'Element ' || to_char(i) ||
 16        ' of array contains: ' ||
 17        l_array(i)
 18      );
 19    end loop;
 20  end;
 21  /
declare
*
ERROR at line 1:
ORA-00931: missing identifier
ORA-06512: at "SYS.DBMS_UTILITY", line 132
ORA-06512: at "SYS.DBMS_UTILITY", line 164
ORA-06512: at "SYS.DBMS_UTILITY", line 218
ORA-06512: at line 6

But with a little trick to prefix the elements with an 'x', it works:

SQL> declare
  2    l_input varchar2(4000) := '1,2,3';
  3    l_count binary_integer;
  4    l_array dbms_utility.lname_array;
  5  begin
  6    dbms_utility.comma_to_table
  7    ( list   => regexp_replace(l_input,'(^|,)','\1x')
  8    , tablen => l_count
  9    , tab    => l_array
 10    );
 11    dbms_output.put_line(l_count);
 12    for i in 1 .. l_count
 13    loop
 14      dbms_output.put_line
 15      ( 'Element ' || to_char(i) ||
 16        ' of array contains: ' ||
 17        substr(l_array(i),2)
 18      );
 19    end loop;
 20  end;
 21  /
3
Element 1 of array contains: 1
Element 2 of array contains: 2
Element 3 of array contains: 3

PL/SQL procedure successfully completed.

Regards, Rob.

share|improve this answer

Simple Code

    create or replace function get_token(text_is varchar2, token_in number, delim_is varchar2 := ';') return varchar2 is
       text_ls varchar2(2000);
       spos_ln number;
       epos    _ln number;
    begin
       text_ls := delim_is || text_is || rpad(delim_is, token_in, delim_is);
       spos_ln := instr(text_ls, delim_is, 1, token_in);
       epos_ln := instr(text_ls, delim_is, 1, token_in+1);
       return substr(text_ls, spos_ln+1, epos_ln-spos_ln-1);
    end get_token;
share|improve this answer

A quick search on my BBDD took me to a function called split:

create or replace function split
( 
p_list varchar2, 
p_del varchar2 := ','
) 
return split_tbl pipelined
is 
l_idx pls_integer; 
l_list varchar2(32767) := p_list;AA 
l_value varchar2(32767);
begin 
loop 
l_idx := instr(l_list,p_del); 
if l_idx > 0 then 
pipe row(substr(l_list,1,l_idx-1)); 
l_list := substr(l_list,l_idx+length(p_del));
else 
pipe row(l_list); 
exit; 
end if; 
end loop; 
return;
end split;

I don't know if it'll be of use, but we found it here...

share|improve this answer
    
Seems the underlying functions in both our answers are exactly the same :) –  Benoit Sep 29 '10 at 7:09
    
Uops! I did not see your answer! It works quite well actually, I have it stored in my Usefull Functions library ;) –  SoulWanderer Sep 29 '10 at 8:05

Yes, it is very frustrating that dbms_utility.comma_to_table only supports comma delimieted lists and then only when elements in the list are valid PL/SQL identifies (so numbers cause an error).

I have created a generic parsing package that will do what you need (pasted below). It is part of my "demo.zip" file, a repository of over 2000 files that support my training materials, all available at PL/SQL Obsession: www.toadworld.com/SF.

Regards, Steven Feuerstein www.plsqlchallenge.com (daily PL/SQL quiz)

    CREATE OR REPLACE PACKAGE parse
/*
   Generalized delimited string parsing package

   Author: Steven Feuerstein, steven@stevenfeuerstein.com

   Latest version always available on PL/SQL Obsession: 

   www.ToadWorld.com/SF

   Click on "Trainings, Seminars and Presentations" and
   then download the demo.zip file.

   Modification History
      Date          Change
      10-APR-2009   Add support for nested list variations

   Notes:
     * This package does not validate correct use of delimiters.
       It assumes valid construction of lists.
     * Import the Q##PARSE.qut file into an installation of 
       Quest Code Tester 1.8.3 or higher in order to run
       the regression test for this package.

*/
IS
   SUBTYPE maxvarchar2_t IS VARCHAR2 (32767);

   /*
   Each of the collection types below correspond to (are returned by)
   one of the parse functions.

   items_tt - a simple list of strings
   nested_items_tt - a list of lists of strings
   named_nested_items_tt - a list of named lists of strings

   This last type also demonstrates the power and elegance of string-indexed
   collections. The name of the list of elements is the index value for
   the "outer" collection.
   */
   TYPE items_tt IS TABLE OF maxvarchar2_t
                       INDEX BY PLS_INTEGER;

   TYPE nested_items_tt IS TABLE OF items_tt
                              INDEX BY PLS_INTEGER;

   TYPE named_nested_items_tt IS TABLE OF items_tt
                                    INDEX BY maxvarchar2_t;

   /*
   Parse lists with a single delimiter.
   Example: a,b,c,d

   Here is an example of using this function:

   DECLARE
      l_list parse.items_tt;
   BEGIN
      l_list := parse.string_to_list ('a,b,c,d', ',');
   END;
   */
   FUNCTION string_to_list (string_in IN VARCHAR2, delim_in IN VARCHAR2)
      RETURN items_tt;

   /*
   Parse lists with nested delimiters.
   Example: a,b,c,d|1,2,3|x,y,z

   Here is an example of using this function:

   DECLARE
      l_list parse.nested_items_tt;
   BEGIN
      l_list := parse.string_to_list ('a,b,c,d|1,2,3,4', '|', ',');
   END;
   */
   FUNCTION string_to_list (string_in      IN VARCHAR2
                          , outer_delim_in IN VARCHAR2
                          , inner_delim_in IN VARCHAR2
                           )
      RETURN nested_items_tt;

   /*
   Parse named lists with nested delimiters.
   Example: letters:a,b,c,d|numbers:1,2,3|names:steven,george

   Here is an example of using this function:

   DECLARE
      l_list parse.named_nested_items_tt;
   BEGIN
   l_list := parse.string_to_list ('letters:a,b,c,d|numbers:1,2,3,4', '|', ':', ',');
   END;
   */
   FUNCTION string_to_list (string_in      IN VARCHAR2
                          , outer_delim_in IN VARCHAR2
                          , name_delim_in  IN VARCHAR2
                          , inner_delim_in IN VARCHAR2
                           )
      RETURN named_nested_items_tt;

   PROCEDURE display_list (string_in IN VARCHAR2
                         , delim_in  IN VARCHAR2:= ','
                          );

   PROCEDURE display_list (string_in      IN VARCHAR2
                         , outer_delim_in IN VARCHAR2
                         , inner_delim_in IN VARCHAR2
                          );

   PROCEDURE display_list (string_in      IN VARCHAR2
                         , outer_delim_in IN VARCHAR2
                         , name_delim_in  IN VARCHAR2
                         , inner_delim_in IN VARCHAR2
                          );

   PROCEDURE show_variations;

   /* Helper function for automated testing */
   FUNCTION nested_eq (list1_in    IN items_tt
                     , list2_in    IN items_tt
                     , nulls_eq_in IN BOOLEAN
                      )
      RETURN BOOLEAN;

END parse;
/

CREATE OR REPLACE PACKAGE BODY parse
IS
   FUNCTION string_to_list (string_in IN VARCHAR2, delim_in IN VARCHAR2)
      RETURN items_tt
   IS
      c_end_of_list   CONSTANT PLS_INTEGER := -99;
      l_item          maxvarchar2_t;
      l_startloc      PLS_INTEGER := 1;
      items_out       items_tt;

      PROCEDURE add_item (item_in IN VARCHAR2)
      IS
      BEGIN
         IF item_in = delim_in
         THEN
            /* We don't put delimiters into the collection. */
            NULL;
         ELSE
            items_out (items_out.COUNT + 1) := item_in;
         END IF;
      END;

      PROCEDURE get_next_item (string_in         IN     VARCHAR2
                             , start_location_io IN OUT PLS_INTEGER
                             , item_out             OUT VARCHAR2
                              )
      IS
         l_loc   PLS_INTEGER;
      BEGIN
         l_loc := INSTR (string_in, delim_in, start_location_io);

         IF l_loc = start_location_io
         THEN
            /* A null item (two consecutive delimiters) */
            item_out := NULL;
         ELSIF l_loc = 0
         THEN
            /* We are at the last item in the list. */
            item_out := SUBSTR (string_in, start_location_io);
         ELSE
            /* Extract the element between the two positions. */
            item_out :=
               SUBSTR (string_in
                     , start_location_io
                     , l_loc - start_location_io
                      );
         END IF;

         IF l_loc = 0
         THEN
            /* If the delimiter was not found, send back indication
               that we are at the end of the list. */

            start_location_io := c_end_of_list;
         ELSE
            /* Move the starting point for the INSTR search forward. */
            start_location_io := l_loc + 1;
         END IF;
      END get_next_item;
   BEGIN
      IF string_in IS NULL OR delim_in IS NULL
      THEN
         /* Nothing to do except pass back the empty collection. */
         NULL;
      ELSE
         LOOP
            get_next_item (string_in, l_startloc, l_item);
            add_item (l_item);
            EXIT WHEN l_startloc = c_end_of_list;
         END LOOP;
      END IF;

      RETURN items_out;
   END string_to_list;

   FUNCTION string_to_list (string_in      IN VARCHAR2
                          , outer_delim_in IN VARCHAR2
                          , inner_delim_in IN VARCHAR2
                           )
      RETURN nested_items_tt
   IS
      l_elements   items_tt;
      l_return     nested_items_tt;
   BEGIN
      /* Separate out the different lists. */
      l_elements := string_to_list (string_in, outer_delim_in);

      /* For each list, parse out the separate items
         and add them to the end of the list of items
         for that list. */   
      FOR indx IN 1 .. l_elements.COUNT
      LOOP
         l_return (l_return.COUNT + 1) :=
            string_to_list (l_elements (indx), inner_delim_in);
      END LOOP;

      RETURN l_return;
   END string_to_list;

   FUNCTION string_to_list (string_in      IN VARCHAR2
                          , outer_delim_in IN VARCHAR2
                          , name_delim_in  IN VARCHAR2
                          , inner_delim_in IN VARCHAR2
                           )
      RETURN named_nested_items_tt
   IS
      c_name_position constant pls_integer := 1;
      c_items_position constant pls_integer := 2;
      l_elements          items_tt;
      l_name_and_values   items_tt;
      l_return            named_nested_items_tt;
   BEGIN
      /* Separate out the different lists. */
      l_elements := string_to_list (string_in, outer_delim_in);

      FOR indx IN 1 .. l_elements.COUNT
      LOOP
         /* Extract the name and the list of items that go with 
            the name. This collection always has just two elements:
              index 1 - the name
              index 2 - the list of values
         */
         l_name_and_values :=
            string_to_list (l_elements (indx), name_delim_in);
         /*
         Use the name as the index value for this list.
         */
         l_return (l_name_and_values (c_name_position)) :=
            string_to_list (l_name_and_values (c_items_position), inner_delim_in);
      END LOOP;

      RETURN l_return;
   END string_to_list;

   PROCEDURE display_list (string_in IN VARCHAR2
                         , delim_in  IN VARCHAR2:= ','
                          )
   IS
      l_items   items_tt;
   BEGIN
      DBMS_OUTPUT.put_line (
         'Parse "' || string_in || '" using "' || delim_in || '"'
      );

      l_items := string_to_list (string_in, delim_in);

      FOR indx IN 1 .. l_items.COUNT
      LOOP
         DBMS_OUTPUT.put_line ('> ' || indx || ' = ' || l_items (indx));
      END LOOP;
   END display_list;

   PROCEDURE display_list (string_in      IN VARCHAR2
                         , outer_delim_in IN VARCHAR2
                         , inner_delim_in IN VARCHAR2
                          )
   IS
      l_items   nested_items_tt;
   BEGIN
      DBMS_OUTPUT.put_line(   'Parse "'
                           || string_in
                           || '" using "'
                           || outer_delim_in
                           || '-'
                           || inner_delim_in
                           || '"');
      l_items := string_to_list (string_in, outer_delim_in, inner_delim_in);


      FOR outer_index IN 1 .. l_items.COUNT
      LOOP
         DBMS_OUTPUT.put_line(   'List '
                              || outer_index
                              || ' contains '
                              || l_items (outer_index).COUNT
                              || ' elements');

         FOR inner_index IN 1 .. l_items (outer_index).COUNT
         LOOP
            DBMS_OUTPUT.put_line(   '> Value '
                                 || inner_index
                                 || ' = '
                                 || l_items (outer_index) (inner_index));
         END LOOP;
      END LOOP;
   END display_list;

   PROCEDURE display_list (string_in      IN VARCHAR2
                         , outer_delim_in IN VARCHAR2
                         , name_delim_in  IN VARCHAR2
                         , inner_delim_in IN VARCHAR2
                          )
   IS
      l_items   named_nested_items_tt;
      l_index   maxvarchar2_t;
   BEGIN
      DBMS_OUTPUT.put_line(   'Parse "'
                           || string_in
                           || '" using "'
                           || outer_delim_in
                           || '-'
                           || name_delim_in
                           || '-'
                           || inner_delim_in
                           || '"');
      l_items :=
         string_to_list (string_in
                       , outer_delim_in
                       , name_delim_in
                       , inner_delim_in
                        );

      l_index := l_items.FIRST;

      WHILE (l_index IS NOT NULL)
      LOOP
         DBMS_OUTPUT.put_line(   'List "'
                              || l_index
                              || '" contains '
                              || l_items (l_index).COUNT
                              || ' elements');

         FOR inner_index IN 1 .. l_items (l_index).COUNT
         LOOP
            DBMS_OUTPUT.put_line(   '> Value '
                                 || inner_index
                                 || ' = '
                                 || l_items (l_index) (inner_index));
         END LOOP;

         l_index := l_items.NEXT (l_index);
      END LOOP;
   END display_list;

   PROCEDURE show_variations
   IS
      PROCEDURE show_header (title_in IN VARCHAR2)
      IS
      BEGIN
         DBMS_OUTPUT.put_line (RPAD ('=', 60, '='));
         DBMS_OUTPUT.put_line (title_in);
         DBMS_OUTPUT.put_line (RPAD ('=', 60, '='));
      END show_header;
   BEGIN
      show_header ('Single Delimiter Lists');
      display_list ('a,b,c');
      display_list ('a;b;c', ';');
      display_list ('a,,b,c');
      display_list (',,b,c,,');

      show_header ('Nested Lists');
      display_list ('a,b,c,d|1,2,3|x,y,z', '|', ',');

      show_header ('Named, Nested Lists');
      display_list ('letters:a,b,c,d|numbers:1,2,3|names:steven,george'
                  , '|'
                  , ':'
                  , ','
                   );
   END;

   FUNCTION nested_eq (list1_in    IN items_tt
                     , list2_in    IN items_tt
                     , nulls_eq_in IN BOOLEAN
                      )
      RETURN BOOLEAN
   IS
      l_return   BOOLEAN := list1_in.COUNT = list2_in.COUNT;
      l_index    PLS_INTEGER := 1;
   BEGIN
      WHILE (l_return AND l_index IS NOT NULL)
      LOOP
         l_return := list1_in (l_index) = list2_in (l_index);
         l_index := list1_in.NEXT (l_index);
      END LOOP;

      RETURN l_return;
   EXCEPTION
      WHEN NO_DATA_FOUND
      THEN
         RETURN FALSE;
   END nested_eq;
END;
/
share|improve this answer

We can never run out of alternatives of doing the same thing differently, right? I recently found this is pretty handy:

DECLARE
   BAR   VARCHAR2 (200) := '1,2,3';
BEGIN
   FOR FOO IN (    SELECT REGEXP_SUBSTR (BAR,
                                         '[^,]+',
                                         1,
                                         LEVEL)
                             TXT
                     FROM DUAL
               CONNECT BY REGEXP_SUBSTR (BAR,
                                         '[^,]+',
                                         1,
                                         LEVEL)
                             IS NOT NULL)
   LOOP
      DBMS_OUTPUT.PUT_LINE (FOO.TXT);
   END LOOP;
END;

Outputs:

1
2
3
share|improve this answer
declare 
    v_str varchar2(100) := '1,2,3,4,6,7,8,9,0,';
    v_str1 varchar2(100); 
    v_comma_pos number := 0;    
    v_start_pos number := 1;
begin             
    loop        
    v_comma_pos := instr(v_str,',',v_start_pos);   
    v_str1 := substr(v_str,v_start_pos,(v_comma_pos - v_start_pos)); 
    dbms_output.put_line(v_str1);     
    if  v_comma_pos = 0 then     
    v_str1 := substr(v_str,v_start_pos);  
    dbms_output.put_line(v_str1);    
    exit;
    end if;    
    v_start_pos := v_comma_pos + 1;  
    if  v_comma_pos = 0 then    
    exit;
    end if;       
    end loop; 
end;
share|improve this answer

I was looking for a similar solution where I had multi-byte characters (hyphen, whitespace, underscore) in comma separated lists. So dbms_utility.comma_to_table didn't work for me.

declare
  curr_val varchar2 (255 byte);
  input_str varchar2 (255 byte);
  remaining_str varchar2 (255 byte);
begin
  remaining_str := input_str || ',dummy';  -- this value won't output
  while (regexp_like (remaining_str, '.+,.+'))
  loop
    curr_val := substr (remaining_str, 1, instr (remaining_str, ',') - 1);
    remaining_str = substr (remaining_str, instr (remaining_str, ',') + 1);
    dbms_output.put_line (curr_val);
  end loop;
end;

This is not an expert answer so I hope someone would improve this answer.

share|improve this answer

Another possibility is:

create or replace FUNCTION getNth (
  input varchar2,
  nth number
) RETURN varchar2 AS
  nthVal varchar2(80);
BEGIN
  with candidates (s,e,n) as (
      select 1, instr(input,',',1), 1 from dual
      union all
      select e+1, instr(input,',',e+1), n+1
        from candidates where e > 0)
  select substr(input,s,case when e > 0 then e-s else length(input) end) 
    into nthVal
    from candidates where n=nth;
  return nthVal;
END getNth;

It's a little too expensive to run, as it computes the complete split every time the caller asks for one of the items in there...

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