String and character mapping question for the guru's out there

Here's a problem thats got me stumped (solution wise):

Given a str `S`, apply character mappings `Cm = {a=(m,o,p),d=(q,u),...}` and print out all possible combinations using C or C++.

The string can be any length, and the number of character mappings varies, and there won't be any mappings that map to another map (thus avoiding circular dependencies).

As an example: string `abba` with mappings `a=(e,o), d=(g,h), b=(i)` would print:

``````abba,ebba,obba,abbe,abbo,ebbe,ebbo,obbe,obbo,aiba,aiia,abia,eiba,eiia,......
``````
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Nope not homework, helping out a team with a real life deliverable with a tight deadline. I'm a double E embedded guy, not familiar with data structures, ect...Any help would be appreciated, even a point to head in a specific direction. Was thinking recursive, but it doesn't feel right. –  Gio Feb 10 '10 at 16:12
@Gio: Ok, what's the max length of the mapping? are they fixed, ie 2 possible mappings? as in your example above? –  t0mm13b Feb 10 '10 at 16:16
Max string length = 32, max number of mappings = 8, max number of characters per map = 4. Obviously, not cast in stone since there are marketing people involved...sigh. So algorithm clues would be most appreciated. We can take care of the memory issues or other tweaking as needed. Off to a meeting. –  Gio Feb 10 '10 at 16:28
Are you prepared to get billions of strings? If each character in a string has one alternate, a 32-character string will generate over four billion strings. –  David Thornley Feb 10 '10 at 18:06
Well, my program generates 612 million strings in 6.1 seconds on a 2.2GHz Core2 duo, input `'aeo dgh bi' abdabdabdabdabdabdabd`. –  Potatoswatter Feb 10 '10 at 18:30
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Definitely possible, not really difficult... but this will generate lots of strings that's for sure.

The first thing to remark is that you know how many strings it's going to generate beforehand, so it's easy to do some sanity check :)

The second: it sounds like a recursive solution would be easy (like many traversal problems).

``````class CharacterMapper
{
public:
CharacterMapper(): mGenerated(), mMapped()
{
for (int i = -128, max = 128; i != max; ++i)
mMapped[i].push_back(i); // 'a' is mapped to 'a' by default
}

{
std::string& m = mMapped[origin];
if (m.find(target) == std::string::npos) m.push_back(target);

void addMapped(char origin, const std::string& target)
{
for (size_t i = 0, max = target.size(); i != max; ++i) this->addMapped(origin, target[i]);

void execute(const std::string& original)
{
mGenerated.clear();
this->next(original, 0);
this->sanityCheck(original);
this->print(original);
}

private:
void next(std::string original, size_t index)
{
if (index == original.size())
{
mGenerated.push_back(original);
}
else
{
const std::string& m = mMapped[original[index]];
for (size_t i = 0, max = m.size(); i != max; ++i)
this->next( original.substr(0, index) + m[i] + original.substr(index+1), index+1 );
}
} // next

void sanityCheck(const std::string& original)
{
size_t total = 1;
for (size_t i = 0, max = original.size(); i != max; ++i)
total *= mMapped[original[i]].size();

if (total != mGenerated.size())
std::cout << "Failure: should have found " << total << " words, found " << mGenerated.size() << std::endl;
}

void print(const std::string& original) const
{
typedef std::map<char, std::string>::const_iterator map_iterator;
typedef std::vector<std::string>::const_iterator vector_iterator;

std::cout << "Original: " << original << "\n";

std::cout << "Mapped: {";
for (map_iterator it = mMapped.begin(), end = mMapped.end(); it != end; ++it)
if (it->second.size() > 1) std::cout << "'" << it->first << "': '" << it->second.substr(1) << "'";
std::cout << "}\n";

std::cout << "Generated:\n";
for (vector_iterator it = mGenerated.begin(), end = mGenerated.end(); it != end; ++it)
std::cout << "  " << *it << "\n";
}

std::vector<std::string> mGenerated;
std::map<char, std::string> mMapped;
}; // class CharacterMapper

int main(int argc, char* argv[])
{
CharacterMapper mapper;
mapper.execute("abba");
}
``````

And here is the output:

``````Original: abba
Mapped: {'a': 'eo''b': 'i''d': 'gh'}
Generated:
abba
abbe
abbo
abia
abie
abio
aiba
aibe
aibo
aiia
aiie
aiio
ebba
ebbe
ebbo
ebia
ebie
ebio
eiba
eibe
eibo
eiia
eiie
eiio
obba
obbe
obbo
obia
obie
obio
oiba
oibe
oibo
oiia
oiie
oiio
``````

Yeah, rather lengthy, but there's a lot that does not directly participate to the computation (initialization, checks, printing). The core methods is `next` which implements the recursion.

-

EDIT: This should be the fastest and simplest possible algo. Some may argue with the style or portability; I think this is perfect for an embedded-type thing and I've spent long enough on it already. I'm leaving the original below.

This uses an array for mapping. The sign bit is used to indicate the end of a mapping cycle, so the array type has to be larger than the mapped type if you want to use the full `unsigned` range.

Generates 231M strings/sec or ~9.5 cycles/string on a 2.2GHz Core2. Testing conditions and usage as below.

``````#include <iostream>
using namespace std;

int const alphabet_size = CHAR_MAX+1;
typedef int map_t; // may be char or short, small performance penalty
int const sign_bit = 1<< CHAR_BIT*sizeof(map_t)-1;
typedef map_t cmap[ alphabet_size ];

void CreateMap( char *str, cmap &m ) {
fill( m, m+sizeof(m)/sizeof(*m), 0 );
char *str_end = strchr( str, 0 ) + 1;
str_end[-1] = ' '; // space-terminated strings
char prev = ' ';
for ( char *pen = str; pen != str_end; ++ pen ) {
if ( * pen == ' ' ) {
m[ prev ] |= sign_bit;
prev = 0;
}
m[ * pen ] = * pen;
if ( prev != ' ' ) swap( m[prev], m[ *pen ] );
prev = *pen;
}
for ( int mx = 0; mx != sizeof(m)/sizeof(*m); ++ mx ) {
if ( m[mx] == 0 ) m[mx] = mx | sign_bit;
}
}

bool NextMapping( char *s, char *s_end, cmap &m ) {
for ( char *pen = s; pen != s_end; ++ pen ) {
map_t oldc = *pen, newc = m[ oldc ];
* pen = newc & sign_bit-1;
if ( newc >= 0 ) return true;
}
return false;
}

int main( int argc, char **argv ) {
uint64_t cnt = 0;
cmap m;
CreateMap( argv[1], m );
char *s = argv[2], *s_end = strchr( s, 0 );
do {
++ cnt;
} while ( NextMapping( s, s_end, m ) );
cerr << cnt;
return 0;
}
``````

ORIGINAL:

Not as short or robust as I'd like, but here's something.

• Requires that the input string always contain the alphabetically first letter in each replacement set
• Execute a la `maptool 'aeo dgh bi' abbd`
• Output is in reverse-lexicographical order
• Performance of about 22 cycles/string (100M strings/sec at 2.2 GHz Core2)
• BUT my platform is trying to be clever with `string`s, slowing it down
• If I change it to use `char*` strings instead, it runs at 142M strings/sec (~15.5 cycles/string)
• Should be possible to go faster using a `char[256]` mapping table and another `char[256]` specifying which chars end a cycle.

The map data structure is an array of nodes linked into circular lists.

``````#include <iostream>
#include <algorithm>
using namespace std;

enum { alphabet_size = UCHAR_MAX+1 };

struct MapNode {
MapNode *next;
char c;
bool last;
MapNode() : next( this ), c(0), last(false) {}
};

void CreateMap( string s, MapNode (&m)[ alphabet_size ] ) {
MapNode *mprev = 0;
replace( s.begin(), s.end(), ' ', '\0' );
char *str = const_cast<char*>(s.c_str()), *str_end = str + s.size() + 1;
for ( char *pen = str; pen != str_end; ++ pen ) {
if ( mprev == 0 ) sort( pen, pen + strlen( pen ) );
if ( * pen == 0 ) {
if ( mprev ) mprev->last = true;
mprev = 0;
continue;
}
MapNode &mnode = m[ * pen ];
if ( mprev ) swap( mprev->next, mnode.next ); // link node in
mnode.c = * pen; // tell it what char it is
mprev = &mnode;
}
// make it easier to tell that a node isn't in any map
for ( MapNode *mptr = m; mptr != m + alphabet_size; ++ mptr ) {
if ( mptr->next == mptr ) mptr->next = 0;
}
}

bool NextMapping( string &s, MapNode (&m)[ alphabet_size ] ) {
for ( string::iterator it = s.begin(); it != s.end(); ++ it ) {
MapNode &mnode = m[ * it ];
if ( mnode.next ) {
* it = mnode.next->c;
if ( ! mnode.last ) return true;
}
}
return false;
}

int main( int argc, char **argv ) {
MapNode m[ alphabet_size ];
CreateMap( argv[1], m );
string s = argv[2];
do {
cerr << s << endl;
} while ( NextMapping( s, m ) );
return 0;
}
``````
-

The way I would go about this is to create an array of indexes the same length as the string, all initialized at zero. We then treat this array of indexes as a counter to enumerate all the possible mappings of our source string. A 0 index maps that position in the string to the first mapping for that character, a 1 to the second, etc. We can step through them in order by just incrementing the last index in the array, carrying over to the next position when we reach the maximum number of mappings for that position.

To use your example, we have the mappings

``````'a' => 'e', 'o'
'b' => 'i'
``````

With the input string "abba", we need a four element array for our indexes:

``````[0,0,0,0] => "abba"
[0,0,0,1] => "abbe"
[0,0,0,2] => "abbo"
[0,0,1,0] => "abia"
[0,0,1,1] => "abie"
[0,0,1,2] => "abio"
[0,1,0,0] => "aiba"
[0,1,0,1] => "aibe"
[0,1,0,2] => "aibo"
[0,1,1,0] => "aiia"
[0,1,1,1] => "aiie"
[0,1,1,2] => "aiio"
[1,0,0,0] => "ebba"
[1,0,0,1] => "ebbe"
[1,0,0,2] => "ebbo"
[1,0,1,0] => "ebia"
[1,0,1,1] => "ebie"
[1,0,1,2] => "ebio"
[1,1,0,0] => "eiba"
[1,1,0,1] => "eibe"
[1,1,0,2] => "eibo"
[1,1,1,0] => "eiia"
[1,1,1,1] => "eiie"
[1,1,1,2] => "eiio"
[2,0,0,0] => "obba"
[2,0,0,1] => "obbe"
[2,0,0,2] => "obbo"
[2,0,1,0] => "obia"
[2,0,1,1] => "obie"
[2,0,1,2] => "obio"
[2,1,0,0] => "oiba"
[2,1,0,1] => "oibe"
[2,1,0,2] => "oibo"
[2,1,1,0] => "oiia"
[2,1,1,1] => "oiie"
[2,1,1,2] => "oiio"
``````

Before we start generating these strings, we're going to need somewhere to store them, which in C, means that we're going to have to allocate memory. Fortunately, we know the length of these strings already, and we can figure out the number of strings we're going to generate - it's just the product of the number of mappings for each position.

While you can return them in an array, I prefer to use a callback to return them as I find them.

``````#include <string.h>
#include <stdlib.h>
int each_combination(
char const * source,
char const * mappings[256],
int (*callback)(char const *, void *),
void * thunk
) {
if (mappings == NULL || source == NULL || callback == NULL )
{
return -1;
}
else
{
size_t i;
int rv;
size_t num_mappings[256] = {0};
size_t const source_len = strlen(source);
size_t * const counter = calloc( source_len, sizeof(size_t) );
char * const scratch = strdup( source );

if ( scratch == NULL || counter == NULL )
{
rv = -1;
goto done;
}

/* cache the number of mappings for each char */
for (i = 0; i < 256; i++)
num_mappings[i] = 1 + (mappings[i] ? strlen(mappings[i]) : 0);

/* pass each combination to the callback */
do {
rv = callback(scratch, thunk);
if (rv != 0) goto done;

/* increment the counter */
for (i = 0; i < source_len; i++)
{
counter[i]++;
if (counter[i] == num_mappings[(unsigned char) source[i]])
{
/* carry to the next position */
counter[i] = 0;
scratch[i] = source[i];
continue;
}
/* use the next mapping for this character */
scratch[i] = mappings[(unsigned char) source[i]][counter[i]-1];
break;
}
} while(i < source_len);

done:
if (scratch) free(scratch);
if (counter) free(counter);
return rv;
}
}
#include <stdio.h>
int print_each( char const * s, void * name)
{
printf("%s:%s\n", (char const *) name, s);
return 0;
}
int main(int argc, char ** argv)
{
char const * mappings[256] = { NULL };
mappings[(unsigned char) 'a'] = "eo";
mappings[(unsigned char) 'b'] = "i";

each_combination( "abba", mappings, print_each, (void *) "abba");
each_combination( "baobab", mappings, print_each, (void *) "baobab");

return 0;
}
``````
-
While it works, it always makes me cringe to see `malloc` and `free` all over the place, especially when NOT paired in the same method... Also (but it's typical with english speakers) some `char` may have a negative value (for accentuated characters in the extended ASCII). –  Matthieu M. Feb 10 '10 at 18:00
Thanks for calling me on using signed characters as array indexes. Fixed that. As for returning allocated memory - I prefer to have the caller allocate memory, but in cases like this, where figuring out how much memory to allocate is a big part of the calculation, it seems silly to expect the caller to figure that out. –  rampion Feb 10 '10 at 18:15
Actually, know what? I'm going to rewrite this with a callback, since I like that better. –  rampion Feb 10 '10 at 18:19

You essentially want to do a depth-first search (DFS) or any other traversal down a directed acyclic word graph (DAWG). I will post some code shortly.

-

There is a link to the snippets archive which does that, here, Permute2.c. There is another variant of the string permutation (I guess you could then filter out those that are not in the map!) See here on the 'snippets' archive...

Hope this helps, Best regards, Tom.

-

simple, recursive permute, with using char map[256]

``````char *map [256];

/* permute the ith char in s */
perm (char *s, int i)
{
if (!s) return;

/* terminating condition */
if (s[i] == '\0') {
/* add "s" to a string array if we want to store the permutations */
printf("%s\n", s);
return;
}

char c = s[i];
char *m = map [c];
// printf ("permuting at [%c]: %s\n", c, m);
int j=0;
/* do for the first char, then use map chars */
do {
perm (s, i+1);
s[i] = m[j];
} while (m[j++] != '\0');
/* restore original char here, used for mapping */
s[i] = c;

return;
}

int main ()
{
/* map table initialization */
map['a'] = "eo\0";
map['b'] = "i\0";
map['d'] = "gh\0";

/* need modifyable sp, as we change chars in position, sp="abba" will not work! */
char *sp = malloc (10);
strncpy (sp, "abba\0", 5);

perm (sp, 0);
return 0;
}
``````
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