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This seems like a question that should have been answered already somewhere but I can't seem to find something satisfactory. Anyway I need to return from a function something that looks like:

{ {"foo", "bar"}, {"baz", "foo"}, {"foo", "bar"} }

I am familiar with the use of argv and I understand what its types means but for some reason I can't get the type of the above expression correct. There will always be 2 string literals on the innermost part and as such I thought something like either

char **s[2] or char *(*s[2])

should be what I am after but for some reason I constantly end up with a segfault no matter the permutation I try when I attempt to iterate through and use printf. Also the compiler is constantly complaining about incompatible pointer types, excess elements and too many braces. This is the current code:

 char *(*s[2]) = { {"foo", "bar"}, {"baz", "spam"}, {"eggs", "ham"} };
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3 Answers 3

up vote 9 down vote accepted

You are close.

#include <stdio.h>

int main()

    char* s[][2] = { {"foo", "bar"}, {"baz", "spam"}, {"eggs", "ham"} };

    for( int i = 0; i < 3; i++ )
        for(int j = 0; j < 2; j ++)
            printf("%s ",s[i][j]);


The above prints: foo bar baz spam eggs ham

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Can you explain the difference? I know pointers aren't the same as arrays but I think I might not have fully grasped the differences. Thanks so much. –  dreamriver Nov 12 '12 at 5:45
char* s[][2] says "I want an array of s[][2]'s". s[][2] says, I want a character array of any length (the []) in sets of 2 (the [2]). What you have written. char **s[2] says I want a 2d array of s[2]'s or I want a pointer to a 1d array of s[2]'s (depending on how you fill it). –  dinkelk Nov 12 '12 at 5:49
@dreamriver You can decrypt C declarations here –  Agnius Vasiliauskas Nov 12 '12 at 8:07
@0x69 That is awesome! And I thought we had to fend for ourselves in C declaration land... –  dinkelk Nov 12 '12 at 17:57

It's simple

char *s[3][2] ={ {"foo", "bar"}, {"baz", "spam"}, {"eggs", "ham"} };

A little explanation :

char *s ; //   |s| ---> "Only one char array or string"
char *s[] ; //  |s| ---> |_s[0]_|--> 1st pointer to char array --> "1st string"
                         |_s[1]_|--> 2nd pointer to char array --> "2nd string"
                         |_s[2]_|--> 3rd pointer to char array --> "3rd string"

                          ___                                __
char *s[][] ;// |s| ---> |___|--> 1st pointer to pointer -->|__|-->"1st string"                                                                  
                                                            |__|-->"2nd string"                                                                           
                         ____                                __            
                         |___|--> 2nd pointer to pointer -->|__|-->"1st string"                                                                  
                                                            |__|-->"2nd string"
                         ____                                __             
                         |___|--> 3rd pointer to pointer -->|__|-->"1st string"                                                                  
                                                            |__|-->"2nd string"
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i understand that this works but what i don't get is how this differs from char **s[]. why does that fail while yours works? –  dreamriver Nov 20 '12 at 16:31
char *s[] is an array of pointers to pointers to char. here it's one dimensional array of of char ** pointers , but char*[][] is a 2-D array of char –  Omkant Nov 20 '12 at 16:37
char *s[][2] = { {"foo", "bar"}, {"baz", "spam"}, {"eggs", "ham"} };


would print baz

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@dreamriver Has nothing to do with RO memory. Also it dynamic allocation would work. –  user93353 Nov 12 '12 at 5:51

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