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In C there is a switch construct, which enables one to execute different conditional branches of code based on an test integer value, e.g.:

int a;
/* Read the value of "a" from some source, e.g. user input */
switch ( a ) {
case 100:
  // Code
  break;
case 200:
  // Code
  break;
default:
  // Code
  break;
}

How is it possible to obtain the same behavior (i.e. avoid the so-called "if-else ladder") for a string value, i.e. a char *?

share|improve this question
    
What do you mean by "switch on"? –  kennytm Oct 25 '10 at 13:12
    
Please reformulate so that the question makes clear what you are actually trying to do (or asking). –  Let_Me_Be Oct 25 '10 at 13:13
5  
The OP probably wants to use a string as the paramater of a switch statement. As far as I know, this is not possible. –  dandan78 Oct 25 '10 at 13:14
2  
Question is not clear. –  R.. Oct 25 '10 at 14:12

11 Answers 11

If you mean, how to write something similar to this:

switch (string) {
  case "B1": 
    // do something
    break;
  /* more case "xxx" parts */
}

Then the canonical solution in C is to use an if-else ladder:

if (strcmp(string, "B1") == 0) 
{
  // do something
} 
else if (strcmp(string "xxx") == 0)
{
  // do something else
}
/* more else if clauses */
else /* default: */
{
}
share|improve this answer
    
Actually, the problem is that I already have a switch on int and in a special case I have the value "B1" and "B2" which I want to use in same switch. The Only way is to somehow convert the "B1" and "B2" values and use them as int!!? –  Niklas Oct 25 '10 at 13:26
2  
@Niklas: This is important information for your question. Can you update your question and explain (if possible with some (pseudo-)code) what you are trying to do? –  Bart van Ingen Schenau Oct 25 '10 at 13:32
2  
@Niklas: You should clarify your question: how on earth could "B1" and "B2" be a special case of an int? –  Edgar Bonet Oct 25 '10 at 13:35
1  
#define A 1 #define B 2 #define C S1 #define D S2 and these values are what I want to use in my switch. So simple :-) –  Niklas Oct 25 '10 at 19:15
1  
@Niklas: Defines are not strings. If the define is for a number, you can use it directly in your switch like this switch (something) { case A: /*...*/ break; case B: /*...*/ break; }. –  Bart van Ingen Schenau Oct 26 '10 at 8:54

If you have many cases and do not want to write a ton of strcmp() calls, you could do something like:

switch(my_hash_function(the_string)) {
    case HASH_B1: ...
    /* ...etc... */
}

You just have to make sure your hash function has no collisions inside the set of possible values for the string.

share|improve this answer
    
"make sure your hash function has no collisions inside the set of possible values for the string." -- Does such a hash function exists for the alphabet [a-zA-Z0-9_]? Any example? –  Arun Oct 26 '10 at 4:17
    
@ArunSaha: Obviously not for arbitrary combinations of such characters. –  Edgar Bonet Oct 26 '10 at 6:21

There is no way to do this in C. There are a lot of different approaches. Typically the simplest is to define a set of constants that represent your strings and do a look up by string on to get the constant:

#define BADKEY -1
#define A1 1
#define A2 2
#define B1 3
#define B2 4

typedef struct { char *key; int val; } t_symstruct;

static t_symstruct lookuptable[] = {
    { "A1", A1 }, { "A2", A2 }, { "B1", B1 }, { "B2", B2 }
};

#define NKEYS (sizeof(lookuptable)/sizeof(t_symstruct))

int keyfromstring(char *key)
{
    int i;
    for (i=0; i < NKEYS; i++) {
        t_symstruct *sym = lookuptable + i*sizeof(t_symstruct);
        if (strcmp(sym->key, key) == 0)
            return sym->val;
    }
    return BADKEY;
}

/* ... */
switch (keyfromstring(somestring)) {
case A1: /* ... */ break;
case A2: /* ... */ break;
case B1: /* ... */ break;
case B2: /* ... */ break;
case BADKEY: /* handle failed lookup */
}

There are, of course, more efficient ways to do this. If you keep your keys sorted, you can use a binary search. You could use a hashtable too. These things change your performance at the expense of maintenance.

share|improve this answer

I think the best way to do this is separate the 'recognition' from the functionality:

struct stringcase { char* string; void (*func)(void); };

void funcB1();
void funcAzA();

stringcase cases [] = 
{ { "B1", funcB1 }
, { "AzA", funcAzA }
};

void myswitch( char* token ) {
  for( stringcases* pCase = cases
     ; pCase != cases + sizeof( cases ) / sizeof( cases[0] )
     ; pCase++ )
  {
    if( 0 == strcmp( pCase->string, token ) ) {
       (*pCase->func)();
       break;
    }
  }

}
share|improve this answer
    
+1 for "separate recognition from functionality"! –  Wolfgang Adamec Mar 18 '14 at 13:38

To add to Phimueme's answer above, if your string is always two characters, then you can build a 16-bit int out of the two 8-bit characters - and switch on that (to avoid nested switch/case statements).

Mike

share|improve this answer
    
can you explain it a little bit more!? thx. –  Niklas Oct 25 '10 at 13:28
    
If you really wish to To add to Phimueme's answer above, then feel free to use the comment function. :) –  Onion-Knight Oct 25 '10 at 14:29
    
@Onion: You'll note that MikeBrom does not currently have the reputation to comment on posts other than his own and answers to his own questions. That said, @Mike "above" is slippery in SO, becuase there is no reliable sort-order. Better to link to the answer like "... in Phimueme's answer ..." (though that answer is deleted now, and the link is only good for user with 10k+ reputation). –  dmckee Oct 25 '10 at 21:01

This is generally how I do it.

void order_plane(const char *p)
{
    switch ((*p) * 256 + *(p+1))
    {
        case 0x4231 : /* B1 */
        {
           printf("Yes, order this bomber.  It's a blast.\n");
           break;
        }

        case 0x5354 : /* ST */
        {
            printf("Nah.  I just can't see this one.\n");
            break;
        }

        default :
        {
            printf("Not today.  Can I interest you in a crate of SAMs?\n";
        }
    }
}
share|improve this answer
    
Interesting. Lacks (probably by choice) defensive coding. And I admire the additional braces in case. Makes the code so much more readable (though I prefer egyptian braces for case). –  Dariusz May 20 '13 at 10:01
    
BTW, you can use constant expressions in case labels. case 'B'<<8+'1': would make this clearer, I think, than 0x4231. –  Jens May 20 '13 at 11:25
    
To each cat his own rat, but ya I see your point of view. –  EvilTeach May 20 '13 at 14:29

This is how you do it. No, not really.

#include <stdio.h>
#include <string.h>
#include <assert.h>
#include <stdint.h>


 #define p_ntohl(u) ({const uint32_t Q=0xFF000000;       \
                     uint32_t S=(uint32_t)(u);           \
                   (*(uint8_t*)&Q)?S:                    \
                   ( (S<<24)|                            \
                     ((S<<8)&0x00FF0000)|                \
                     ((S>>8)&0x0000FF00)|                \
                     ((S>>24)&0xFF) );  })

main (void)
{
    uint32_t s[0x40]; 
    assert((unsigned char)1 == (unsigned char)(257));
    memset(s, 0, sizeof(s));
    fgets((char*)s, sizeof(s), stdin);

    switch (p_ntohl(s[0])) {
        case 'open':
        case 'read':
        case 'seek':
            puts("ok");
            break;
        case 'rm\n\0':
            puts("not authorized");
            break;
        default:
            puts("unrecognized command");  
    }
    return 0;
}
share|improve this answer
2  
I don't think this is standard C. –  Johan Kotlinski Nov 12 '10 at 13:43
    
Making the macro support mixed endianness, or a function is left as an exercise for the reader. –  jbcreix Nov 12 '10 at 15:18
1  
It is standard C, but not portable. The byte order of the multi-byte char is 'implementation dependend' and doesn't need to reflect the machines byte order. I used that once and got burnt: on Solaris SPARC (big endian) GNU-C 3.4 uses a different byte order than Sunstudio 12. –  Patrick Schlüter Aug 28 '12 at 21:47
    
@tristopia You are right of course(as right as one can be after attempting to do something like this for real). This is why we should be all using B instead. –  jbcreix Aug 29 '12 at 16:43

There is a way to perform the string search faster. Assumptions: since we are talking about a switch statement, I can assume that the values won't be changing during runtime.

The idea is to use the C stdlib's qsort and bsearch.

I'll be working on xtofl's code.

struct stringcase { char* string; void (*func)(void); };

void funcB1();
void funcAzA();

struct stringcase cases [] = 
{ { "B1", funcB1 }
, { "AzA", funcAzA }
};

struct stringcase work_cases* = NULL;
int work_cases_cnt = 0;

// prepare the data for searching
void prepare() {
  // allocate the work_cases and copy cases values from it to work_cases
  qsort( cases, i, sizeof( struct stringcase ), stringcase_cmp );
}

// comparator function
int stringcase_cmp( const void *p1, const void *p2 )
{
  return strcasecmp( ((struct stringcase*)p1)->string, ((struct stringcase*)p2)->string);
}

// perform the switching
void myswitch( char* token ) {
  struct stringcase val;
  val.string=token;
  void* strptr = bsearch( &val, work_cases, work_cases_cnt, sizeof( struct stringcase), stringcase_cmp );
  if (strptr) {
    struct stringcase* foundVal = (struct stringcase*)strptr;
    (*foundVal->func)();
    return OK;
  }
  return NOT_FOUND;
}
share|improve this answer

If it is a 2 byte string you can do something like in this concrete example where I switch on ISO639-2 language codes.

    LANIDX_TYPE LanCodeToIdx(const char* Lan)
    {
      if(Lan)
        switch(Lan[0]) {
          case 'A':   switch(Lan[1]) {
                        case 'N': return LANIDX_AN;
                        case 'R': return LANIDX_AR;
                      }
                      break;
          case 'B':   switch(Lan[1]) {
                        case 'E': return LANIDX_BE;
                        case 'G': return LANIDX_BG;
                        case 'N': return LANIDX_BN;
                        case 'R': return LANIDX_BR;
                        case 'S': return LANIDX_BS;
                      }
                      break;
          case 'C':   switch(Lan[1]) {
                        case 'A': return LANIDX_CA;
                        case 'C': return LANIDX_CO;
                        case 'S': return LANIDX_CS;
                        case 'Y': return LANIDX_CY;
                      }
                      break;
          case 'D':   switch(Lan[1]) {
                        case 'A': return LANIDX_DA;
                        case 'E': return LANIDX_DE;
                      }
                      break;
          case 'E':   switch(Lan[1]) {
                        case 'L': return LANIDX_EL;
                        case 'N': return LANIDX_EN;
                        case 'O': return LANIDX_EO;
                        case 'S': return LANIDX_ES;
                        case 'T': return LANIDX_ET;
                        case 'U': return LANIDX_EU;
                      }
                      break;
          case 'F':   switch(Lan[1]) {
                        case 'A': return LANIDX_FA;
                        case 'I': return LANIDX_FI;
                        case 'O': return LANIDX_FO;
                        case 'R': return LANIDX_FR;
                        case 'Y': return LANIDX_FY;
                      }
                      break;
          case 'G':   switch(Lan[1]) {
                        case 'A': return LANIDX_GA;
                        case 'D': return LANIDX_GD;
                        case 'L': return LANIDX_GL;
                        case 'V': return LANIDX_GV;
                      }
                      break;
          case 'H':   switch(Lan[1]) {
                        case 'E': return LANIDX_HE;
                        case 'I': return LANIDX_HI;
                        case 'R': return LANIDX_HR;
                        case 'U': return LANIDX_HU;
                      }
                      break;
          case 'I':   switch(Lan[1]) {
                        case 'S': return LANIDX_IS;
                        case 'T': return LANIDX_IT;
                      }
                      break;
          case 'J':   switch(Lan[1]) {
                        case 'A': return LANIDX_JA;
                      }
                      break;
          case 'K':   switch(Lan[1]) {
                        case 'O': return LANIDX_KO;
                      }
                      break;
          case 'L':   switch(Lan[1]) {
                        case 'A': return LANIDX_LA;
                        case 'B': return LANIDX_LB;
                        case 'I': return LANIDX_LI;
                        case 'T': return LANIDX_LT;
                        case 'V': return LANIDX_LV;
                      }
                      break;
          case 'M':   switch(Lan[1]) {
                        case 'K': return LANIDX_MK;
                        case 'T': return LANIDX_MT;
                      }
                      break;
          case 'N':   switch(Lan[1]) {
                        case 'L': return LANIDX_NL;
                        case 'O': return LANIDX_NO;
                      }
                      break;
          case 'O':   switch(Lan[1]) {
                        case 'C': return LANIDX_OC;
                      }
                      break;
          case 'P':   switch(Lan[1]) {
                        case 'L': return LANIDX_PL;
                        case 'T': return LANIDX_PT;
                      }
                      break;
          case 'R':   switch(Lan[1]) {
                        case 'M': return LANIDX_RM;
                        case 'O': return LANIDX_RO;
                        case 'U': return LANIDX_RU;
                      }
                      break;
          case 'S':   switch(Lan[1]) {
                        case 'C': return LANIDX_SC;
                        case 'K': return LANIDX_SK;
                        case 'L': return LANIDX_SL;
                        case 'Q': return LANIDX_SQ;
                        case 'R': return LANIDX_SR;
                        case 'V': return LANIDX_SV;
                        case 'W': return LANIDX_SW;
                      }
                      break;
          case 'T':   switch(Lan[1]) {
                        case 'R': return LANIDX_TR;
                      }
                      break;
          case 'U':   switch(Lan[1]) {
                        case 'K': return LANIDX_UK;
                        case 'N': return LANIDX_UN;
                      }
                      break;
          case 'W':   switch(Lan[1]) {
                        case 'A': return LANIDX_WA;
                      }
                      break;
          case 'Z':   switch(Lan[1]) {
                        case 'H': return LANIDX_ZH;
                      }
                      break;
        }
      return LANIDX_UNDEFINED;
    }

LANIDX_* being constant integers used to index in arrays.

share|improve this answer

I have published a header file to perform the switch on the strings in C. It contains a set of macro that hide the call to the strcmp() (or similar) in order to mimic a switch-like behaviour. I have tested it only with GCC in Linux, but I'm quite sure that it can be adapted to support other environment.

share|improve this answer

Assuming little endianness and sizeof(char) == 1, you could do that (something like this was suggested by MikeBrom).

char* txt = "B1";
int tst = *(int*)txt;
if ((tst & 0x00FFFFFF) == '1B')
    printf("B1!\n");

It could be generalized for BE case.

share|improve this answer
1  
Dont do that! This may cause a "data alignment" exception. It's not guaranteed that the char* txt points to an address, that matches alignment requirements of int. –  harper Oct 25 '10 at 14:09
    
-1 for invoking UB with ugly hacks. –  R.. Oct 25 '10 at 14:12
    
@R he asked for that. @harper it's not the case for x86. –  ruslik Oct 25 '10 at 14:21
    
Niklas didn't ask for x86. And since you mentioned the big endian case, you don't address exclusively the x86 environment. So that' –  harper Oct 26 '10 at 4:26
    
Furthermore, multi-byte chars are not necesserly in machine byte order. See my comment to jbcreix answer. –  Patrick Schlüter Aug 28 '12 at 21:49

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