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For class I'm creating a shell in C++. It's been a while since I've worked with C++ so I'm having a bit of trouble. One of the requirements for the project is that I must use the read() system call.

I'm required to keep a command history (similar to bash's if you press the up arrow) that stores the most recent 20 commands. I feel the best way to do this is to use an array of pointers to previous statements. I'm running into a problem where no matter what I do, the string that contains the user input is always stored in the same location in memory. To clarify, this means, if a user inputs 5 statements and then views his/her history, they will see the most recent statement 5 times. My code looks a little something like this (I have to cut some things out because there is a lot of error handling in the middle):

char *history[20];
int historyCounter = 0;

  char currLine[65];
  int charsRead = read(0,currLine,65);

  char tmp[charsRead];
  strcpy(tmp,currLine); //This is my attempt to ensure the char[] is stored int a 
                        //unique location every time, but this attempt failed.

  history[historycounter] = tmp;

Just to note, in my source, I do handle the case when historycounter > 19. Just not in this snippet.

If any more clarification is required I'd be happy to provide it. This is my first time posting on stack overflow so I apologize in advance if I'm making any sort of rookie mistakes. I also apologize if the solution is painfully obvious. I've been looking at this for a while and it is entirely possible that I'm just not thinking straight.

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Don't use strcpy here - read does not null-terminate its output and so charsRead does not include space for the terminating null character, nor does any terminating null character exist. You should either use memcpy (and keep track of lengths explicitly) or add on a terminating character (and make sure to allocate space for it if you copy). –  bdonlan Dec 31 '11 at 21:07

3 Answers 3

up vote 2 down vote accepted

In this case, tmp is most likely to be in the same location, on stack. Its allocated every iteration, and deallocated when the iteration ends.

The line

history[historycounter] = tmp;

Will lead to undefined behavior when you use it because you'll be using an address of a local variable outside of its scope.

If you want to ensure unique address (and solve the UB problem) - use new to allocate the memory, and don't use delete until you're done. Make sure to keep track of all the allocated pointers and delete them when done.

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Wow... This solved my problem. I kind of feel like an idiot now but I'm definitely not afraid to come back with another question. Thanks so much for your quick and helpful response! I really appreciate it! –  Tom Dec 31 '11 at 20:50
@Tom any time, for a first timer your question was very clearly formulated and on topic, you'd be surprised how refreshing it is. Don't forget to accept the answer. –  littleadv Dec 31 '11 at 20:51
Better yet, don't use new. Use std::string, or maybe std::vector<char>. Even better, a memory pool that won't lead to fragmentation. –  Ben Voigt Dec 31 '11 at 20:57
new and delete BAD. Downvoted. –  Puppy Dec 31 '11 at 22:54
@DeadMG don't know what's the point of downvoting the answer, just because you don't like C++. The OP asked a very specific question that I answered. If I answered wrong - do share objections. But you downvoted my answer, basically, because you didn't like the way the OP writes his program. Why is it my fault? And since when new and delete are bad? No-one told me anything about that. A little bit of courtesy and common sense would make you a better person. –  littleadv Jan 1 '12 at 3:47

Are you doing your homework in C++ or in C?

littleadv told you why your program is not behaving correctly. You never allocated array of strings, instead you only have an array of string pointers but they all end up pointing to the same stack location identified by tmp.

However, instead of doing your own pointer manipulation, unlike C, C++ does offer you several higher-level options. For example, you could declare your array as

std::vector< std::string >      listOfCommands;

This will take care of all memory management for you. Also instead of using straight globals, consider consider creating a class that would encapsulate the storage and retrieval of your last N commands. Provide minimal set of public functions for accessing that list (for example arrays and std::vectors allow you to modify any element, but in your application, you only want to write to the end, so your should only have one writer function that only writes to the end). Your listOfCommands would then become a private data and the rest of your program wouldn't even need to know how those commands are stored in memory.

This is what programming in C++ (and any other OO) language is about. Instead of globals, create self-contained building blocks (i.e. classes) which hide most of the complexity, then create larger blocks which rely upon the simpler ones. Keep doing that until your whole application is done.

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Why is this guy the only one who advocated a proper solution? WinRAR. –  Puppy Dec 31 '11 at 22:55
@DeadMG because sometimes you're supposed to do what you're told even if some smart asses on SO think its "bad". This answer doesn't answer the question. It gives another way to do things (that you consider "proper", although I have no idea since when using dynamic allocations became unproper), but that is not what the OP asked for. –  littleadv Jan 1 '12 at 3:49

Just use a 2-d array and skip all this stuff about trying to ensure unique address and tmp buffer.

const size_t MAX_LINE_LENGTH = 65;
typedef char HISTORY_LINE[MAX_LINE_LENGTH+1]; //+1 for null terminator
const size_t MAX_HISTORY_LENGTH = 20;
int historyCounter = 0;

  char* currLine = history[historycounter];

  currLine[0] = '\0';
  int charsRead = read(0,currLine,MAX_LINE_LENGTH);
  if(charsRead > 0)
      currLine[charsRead] = '\0'; // ensure string is null terminated


I skipped all the same error checking as you did, but added a line to ensure that the strings are always null terminated.

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definitely downvoting for MAGIC_BUFFER codes. –  Puppy Dec 31 '11 at 20:56
If there's a fixed limit to the number and size of each string, this is much better than using dynamic memory management, since it won't cause memory fragmentation (important for a long-running process such as a shell). –  Ben Voigt Dec 31 '11 at 20:59
@DeadMG: Why? The constants are well-named, and using constants is much better than the magic numbers scattered through the original code. If you're objecting to the line length restriction, take that up with the OP. –  Ben Voigt Dec 31 '11 at 21:00
OTOH, @selbie there's no reason to have a currLine array separate from the history. Just do char* currLine = history[historyCounter];. And make historyCounter wrap around and reuse entries, instead of running off the end of the array. –  Ben Voigt Dec 31 '11 at 21:02
sure... but I assume he wants to operate on the string just read in before adding it to the history. That's the part of the code not seen... let me see what I can do... –  selbie Dec 31 '11 at 21:04

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