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Good morning. Is it better to use recursion or iteration to separate the even and odd length strings in a C++ linked list?

Better means 1) Robustness 2) Cross Platform Windows/Linux/Unix Portability 3) Worst Case Run Time performance.

cSinglyLinkedList* SeparateOddandEvenlLengthStrings(cSinglyLinkedList* list){
    cSinglyLinkedList* Retval(NULL);
    char* Temp(NULL);
    if (list == NULL || list->Head == NULL){
        return NULL;
    }
    if (list && list->Current && list->Current->Next == NULL){
        return list;
    }
    if (list->Iterate()){
        Temp = list->Current->String;

        Retval = SeparateOddAndEvenLengthStrings(list);

        if ((strlen(Temp) % 2) == 0){
            Retval->Remove(Temp);       
            Retval->Add(Temp);
        }
        return Retval;
    }
    return NULL;
}

class cSinglyLinkedList {
private:
    struct SinglyLinkedInfo{
        SinglyLinkedInfo* Next;
        char* String;
        SinglyLinkedInfo(void){
            Next =  0;
            String= 0;
        }
    } Item;
    SinglyLinkedInfo *Head, *Current; 
    int Count;
    void ClearStrings(void);

public:
    cSinglyLinkedList(void);
    ~cSinglyLinkedList(void);
    bool Add(const char *string1);
    void Remove(const char *string1);
    bool RestartIterator(void);
    bool Iterate(void);
    int GetCount(void);
    SinglyLinkedInfo* GetHead(void);
    SinglyLinkedInfo* GetCurrent(void);
    void Trace(const char *title_);
};

inline bool cSinglyLinkedList::RestartIterator(void) {
    Current=Head;
    return (Current!=0);
}

inline bool cSinglyLinkedList::Iterate(void) {
    if (Current==0){
        Current=Head;
    } else if (Current){ 
        Current = Current->Next;
    }
    return (Current!=0);
}
inline SinglyLinkedInfo *cSinglyLinkedList::GetHead(void) {
    return Head;
}
inline SinglyLinkedInfo *cSinglyLinkedList::GetCurrent(void) {
    return Current;
}
cSinglyLinkedList::cSinglyLinkedList(void) {
    Head=Current=0;
    Count=0;
}
cSinglyLinkedList::~cSinglyLinkedList(void) {
    ClearStrings();
}
void cSinglyLinkedList::ClearStrings(void) {
    SinglyLinkedInfo* nextCurrent;
    Current=Head;
    while (Current!=0) {
        nextCurrent = Current->Next;
        delete[] Current;
        Current=nextCurrent;
    }
    Head=Current=0;
    Count=0;
}
void cSinglyLinkedList::Remove(const char* string1_) {
    SinglyLinkedInfo* Prev(NULL);
    RestartIterator();
    Current = Head;
    while (Current!=0) {
        if (strcmp(Current->String,string1_)==0){       
            if (Prev){
                Prev->Next = Current->Next;
            } else{
                Head = Current->Next;
            }
            delete [] Current;
            break;
        }
        Prev=Current;
        Current=Current->Next;
    }
    RestartIterator();
    Count -= 1;
}

bool cSinglyLinkedList::Add(const char *string1_){ 
    SinglyLinkedInfo* newElement = (SinglyLinkedInfo*)new char[sizeof(SinglyLinkedInfo)];
    memset(newElement, '\x0', sizeof(SinglyLinkedInfo)); 
    newElement->String = new char[sizeof(char*)];
    memcpy(newElement->String, &string1_, sizeof(char*));
    newElement->String = (char*)string1_; 
    newElement->SinglyLinked = new cPCRE();
    newElement->SinglyLinked->SetOptions(PCRE_CASELESS);
    if (newElement->SinglyLinked->Compile(string1_) == 0){
        return false;
    }
    if (Head==0) {
        Head = newElement;

    } else {
        SinglyLinkedInfo* Temp(NULL);

        Temp = Head;

        while (Temp != 0 && Temp->Next != 0){
            Temp = Temp->Next;
        }

        Temp->Next = newElement;
    }

    Count++;
    return true;
}
void cSinglyLinkedList::Trace(const char *title_) {
    int i=0;

    if (title_!=0)
        printf("%s:\n",title_);

    if (RestartIterator()) {
        do {
            printf(" %d: %s\n",i++,GetString());
        } while (Iterate());
    }
}
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closed as not a real question by Mat, JohnB, Anoop Vaidya, palaѕн, Oldskool Jan 1 '13 at 12:07

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

4  
Define "better". –  Oliver Charlesworth Dec 31 '12 at 15:52
4  
Interesting. I don't think this question is "bad" (not worthy of closing, not even worthy of a downvote), but it's a good example of how not to ask a question. The title is good, but the "wall of code" will be off-putting to most users. –  Chad Dec 31 '12 at 15:56
    
@OliCharlesworth, In this case, Better means 1) Robustness 2) Cross Platform Windows/Linux/Unix Portability 3) Worst Case Run Time performance. Thank you. –  Frank Dec 31 '12 at 15:56
1  
@Oli Charlesworth, in the case of Linux and UNIX, GCC and STL are very portable. On the other hand, native Solaris Unix ,AIX and HPUX compilers may use different versions of STL . Thank you. –  Frank Dec 31 '12 at 16:25
1  
@Frank Can you give me a single example of the standard library that's implemented differently between Linux and Solaris? This seems extremely unlikely to say the least.. –  Voo Dec 31 '12 at 16:29

3 Answers 3

up vote 2 down vote accepted

Recursion that isn't "bounded" [1] is definitely a bad thing. What would happen if someone gave your function the complete works of shakespeare as the input (and I mean ALL the books, not "The complete works of shakespeare", which is about 32 characters long).

The problem with unbounded recursion is that it blows up in a way you can't recover from, because once the stack has been completely used up, there is nothing anyone can do but to kill the process. You can't call a function to say "Sorry, I ran out of stack", because that uses stackspace!

[1] or such that you can reasonably say that it's going to be OK with a given number of recursion calls - say for example a reasonably balanced binary tree can search through 4 billion entries at 32 recursion levels, so if your database is not going to be more than a few million entries [and there are guards against pathological cases were all the nodes end up in a linked list down the left or right side of the tree], then you can say it's OK.

share|improve this answer
    
We recently studied the C language PCRE(Perl Compatible Regular Expression) library code which uses recursion to process regular expressions. The PCRE author uses recusrion heavily but lets the user of the pCRE library specifythe maximum stack depth. Thank you for your comment –  Frank Dec 31 '12 at 16:17
    
Yes, but I bet the maximum recursion depth in a regular expression is the length of the string - and regular expressions tend to not the fantastically long. As far as I can see, your function recurses for every word in the input, which could be several thousand without much difficulty - even ONE work of Shakespeare would be several thousand words, right? Would your code cope with nearly 900000 words in the input? –  Mats Petersson Dec 31 '12 at 16:22
    
Yes, I agree that 900000 input words would break the maximum stack depth of Windows and Linux operating systems. Thank you. –  Frank Dec 31 '12 at 16:31
    
I will try to accept your answer in 5 minutes. Thank you for your help. –  Frank Dec 31 '12 at 16:34

From my experience, I can say that for any algorithm the iterative version is always faster than the recursive. The recursive version may also lead to overflow, as the length of the recursion is limited. But, one advantage that the recursive implementations have, is that they are really simple.

share|improve this answer
    
Aristophan , We recently studied the C language PCRE(Perl Compatible Regular Expression) library code which uses recursion to process regular expressions. The PCRE author uses recusrion heavily but lets the user of the pCRE library specifythe maximum stack depth. Thank you for your comment –  Frank Dec 31 '12 at 16:19
    
@Frank You are welcome. –  Rontogiannis Aristofanis Dec 31 '12 at 16:44

Although it may not matter in the end because of tail call optimization, iterative approach to linked list processing is more idiomatic, at least as far as C++ is concerned. Unlike recursive approach, iterative one will not result in stack overflow even if your compiler does not apply tail call optimization.

share|improve this answer
    
+1 The word "idomatic" conveys that the iterative approach will be more familiar and readable to typical C++ programmers. Despite my fondness for all things recursive, it's easier to code/debug an iterative procedure when the outcomes are as simple as splitting up a list. –  hardmath Dec 31 '12 at 16:05
    
@dasblinkenlight, Thank you for your answer. I agree that iteration will solve the stack overflow problem. However, The recursive approcah is simpler to read and involves less code than the iterative approach. –  Frank Dec 31 '12 at 16:06
    
@Frank You would be surprised at the number of long-time practicing programmers who thoroughly misunderstand recursion, down to dismissing it as somehow "inefficient"! Even if you can save a few lines of code with recursion over iterations, when your underlying data structure structure is linear, as a rule you are better off with iterations. –  dasblinkenlight Dec 31 '12 at 16:10
    
@dasblinkenlight Well in C++ that is - but only because it's the idiomatic thing to do there. Just as you wouldn't write the iterative version in say scheme. Performancewise a good compiler should generate pretty much the same code. And implementing things like cache-oblivious algorithms iterative sounds to me like one of the most horrible things you could ever have to do. –  Voo Dec 31 '12 at 16:19
    
@Voo That was pretty much the point of the first sentence in my answer :) It is similar to translating idioms literally in spoken languages: decent chances are that you would be understood, especially when an idiom evokes graphic images that are not tied to a particular culture, but, doing so would unmistakably identify you as a foreigner. –  dasblinkenlight Dec 31 '12 at 16:31

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