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in the following code when i use fwrite its giving correct o/p. While memcpy is not working.

typedef struct
{
  char *p1;
  char *p2;
} node;
char s[] = "hello";
char t[] =" there";
node t1, t2;
char str;
FILE op_f;

t1.p1 = malloc(sizeof(strlen(s));
t1.p2 = malloc(sizeof(strlen(s));

t2.p1 = malloc(sizeof(strlen(s));
t2.p2 = malloc(sizeof(strlen(s));

t1.p1 = s;
t1.p2 = t;
copy(&t1,&t2);

str = malloc(sizeof(strlen(s) + strlen(t));
/* gives o/p hello there */
fwrite(t2.p1,1,strlen(s),op_f);
fwrite(t2.p1,2,strlen(s),op_f);

/* gives o/p there */
memcpy(str,t2.p1,strlen(s));
memcpy(str,t2.p2,strlen(s));

Is there any way to copy buffer to str ??

PS: above code is just for reference not the actual code

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3  
Remember: you need to "malloc(sizeof(strlen(s)+1);" Don't forget the null byte ;) –  paulsm4 Jul 20 '11 at 7:00
    
ya got it but still str is overwriting –  arccc Jul 20 '11 at 7:02
    
char str; should probably be char *str; (you want a pointer to chars not just a single char) –  James Jul 20 '11 at 7:02
1  
I assume OutPut –  ta.speot.is Jul 20 '11 at 7:05
5  
Essentially, everything in this code is wrong. Every single statement contains errors or relies on erroneous assumptions. –  Konrad Rudolph Jul 20 '11 at 7:07
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5 Answers

You should declare str as char array, not a single char:

char str[500];

when str is declared as array, the str is a pointer (to the first element of array). And in your code - str was a char, but not a pointer. Memcpy needs pointers as first and second arguments

Also, use malloc for strings without sizeof:

 t1.p2 = malloc(strlen(s)+1);

Also, fwrite is used incorrectly, because the op_f is not initialized with fopen like:

 op_f = fopen("filename.txt", "w");
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Strings stored in char arrays need one extra byte for a terminator. When computing the size you need to add 1 extra position:

t1.p1 = malloc(strlen(s) + 1); 

This code

t1.p1 = s; 

doesn't copy the text from s to p1, but sets p1 to point to the same string as s.

This part

str = malloc(strlen(s) + strlen(t));  

doesn't work because str is a single char and not a char*. You could try

char* str = malloc(strlen(s) + strlen(t) + 1);  

If you really intend this to be tagged C++, you should consider using std::string instead. It handles all of these details.

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1  
Get rid of the friggin’ sizeof, it’s hurting me! –  Konrad Rudolph Jul 20 '11 at 7:06
    
I looked at the end of the mallocs, for the missing +1. Didn't see the bad start, sorry. –  Bo Persson Jul 20 '11 at 7:13
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I just noticed you use 'char str' instead of 'char *str', so the result of malloc (which is a pointer to string) it not correctly stored in the variable.

Also, when you malloc, you need to calculate the size the following way: strlen(s) + strlen(t) + 1. The extra byte is for the terminating NULL character. And you don't need to use sizeof there. The finally statement will look like:

str = malloc(strlen(s) + strlen(t) + 1);
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/* These are static.  You SHOULD NOT write to either s or t! */
char s[] = "hello";
char t[] =" there";

typedef struct
{
  char *p1;
  char *p2;
} node;
node t1, t2;

/* I think you wanted "*str" here... */
char *str;

/* You definitely want "length of string + 1" here */
t1.p1 = malloc(strlen(s) + 1);
strcpy (t1.p1, s);
...
/* strcpy() and strcat() might be applicable here */
/* strncpy() and strncpy() might be even better - it depends... */
str = malloc(strlen(s)+1 + strlen(t)+1);
strcpy (str, s);
strcat (str, t);
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It's fine to write to s and t if you no longer want them to contain "hello" and "there" - as long as you don't exceed the size of the arrays (six chars each, including the null terminator). –  Michael Burr Jul 20 '11 at 7:23
    
No it's not fine - some platforms will store "hello\0" and "there\0" in read-only memory. –  paulsm4 Jul 20 '11 at 16:05
    
the literals maybe, but the arrays s and t are modifiable copies of the literals. –  Michael Burr Jul 20 '11 at 16:40
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firstly, you should be using strcpy when working with strings (if they are null terminated), as your code currently has a bug which is hidden by the fact 'hello' and 'there' are the same length, to fix it you should be doing (same applies to the malloc calls):

fwrite(t2.p1,sizeof(char),strlen(t2.p1),op_f);
fwrite(t2.p2,sizeof(char),strlen(t2.p2),op_f); //was also a bug here, you used p1 instead of p2 and the size of each element should have been 1

/* gives o/p there */
memcpy(str,t2.p1,strlen(t2.p1));
memcpy(str,t2.p2,strlen(t2.p2));

Your real problem originates because memcpy doesn't increment pointers, hence you should be doing:

strcpy(str,t2.p1);
strcat(str,t2.p2);

or if you really want to use memcpy:

memcpy(str,t2.p1,strlen(t2.p1));
memcpy(str + strlen(t2.p1) - 1,t2.p2,strlen(t2.p2));

finally, your malloc's return pointers, not a char, so str should be a char*.

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Thank all , Necrolis , ur rpost was helpful –  arccc Jul 20 '11 at 7:13
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