Today I experienced a strange behaviour while writing some C/C++ code and I was wondering what the explanation is.
Here are two code snippets showing the same function, the first one has the static array "char comp[BUFFLEN];" declared outside the function while for the second one it is declared inside the function. BUFFLEN was defined with size 1024. The odd behaviour I am referring to is this: the first function runs perfectly and provides the expected output while the second one crushes with a segfault. I know where the mistake is - I did not allocate memory for k before copying (obviously, after fixing, both variants work well), yet I was hoping someone could tell me what happened and why I did't get an error for the first one. Thanks!
char comp[BUFFLEN];
void gen_struct(char* path){
char pathc[BUFFLEN];
memset(comp, 0, BUFFLEN);
comp[0] = '\0';
strcpy(pathc, path);
cout << path << endl;
char* p = strtok(pathc, "/");
char* k;
strcpy(k,p);
do{
if(p == NULL){
cout << "Write " << k << " to disk\n";
break;
}
sprintf(comp, "%s/%s", comp, p);
// strcat(comp, p);
cout << "Making directory: " << comp << endl;
// Sysops::mkdir(comp);
strcpy(k,p);
p = strtok(NULL, "/");
}while(true);
}
void gen_struct(char* path){
char pathc[BUFFLEN];
char comp[BUFFLEN];
memset(comp, 0, BUFFLEN);
comp[0] = '\0';
strcpy(pathc, path);
cout << path << endl;
char* p = strtok(pathc, "/");
char* k;
strcpy(k,p);
do{
if(p == NULL){
cout << "Write " << k << " to disk\n";
break;
}
sprintf(comp, "%s/%s", comp, p);
// strcat(comp, p);
cout << "Making directory: " << comp << endl;
// Sysops::mkdir(comp);
strcpy(k,p);
p = strtok(NULL, "/");
}while(true);
}
Sorry if the title is inappropriate, I tried to think of something someone would actually google.
The behavior is undefined means that it depends on the specific program, platform, running conditions, memory layout, etc.
really? What UB means there's no sane explanation for the behaviour. Even if you know all that you list, the program could have differently even under the same conditions on a different run. Don't spread misinformation.