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I am finding all strings from an array depending on the first letter:

#include<iostream>
#include<algorithm>
#include<string>

int main(){

const std::string strArray[] =  {"an","blau","Bo","Boot","bos","da","Fee","fern","Fest","fort","je","jemand","mir","Mix",
                      "Mixer","Name","neu","od","Ort","so","Tor","Torf","Wasser"};

std::string value = "JNQ";
for_each(value.begin(), value.end(), [strArray](char c){
                  std::string const * iterator = find_if(strArray, strArray+23, [c](std::string str){
                                                    return toupper(str[0]) == c;
                                                 });
                  std::cout<<*iterator<<'\n';
          });

 return 0;
}

I get this output:

je
Name
an

Why is 'an' displayed? I am using g++ 4.5 on Ubuntu.

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3 Answers 3

up vote 2 down vote accepted

iterator is not valid in 3rd case.

In this case iterator = strArray + 23 and point to element placed after array.

Look the fixed code.

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What is the correct way to find then? –  badmaash Jun 28 '11 at 13:30
1  
@Abhi: if (iterator != strArray + 23) { std::cout << *itrerator; } else { std::cout << "wrong"; } --> ideone.com/Vh16L –  Alexey Malistov Jun 28 '11 at 13:32
    
Hmm. Seems to work. Wouldn't it have been better if find_if just returned null? –  badmaash Jun 28 '11 at 13:37
1  
@Abhi This is the way C++ algorithms are designed to work. They all return end when the item isn't found and using that approach consistently makes code much easier to maintain and understand. –  Mark B Jun 28 '11 at 13:38
1  
To elaborate on Mark's statement, NULL usually is a way we represent an object as "invalid", and in this case, find_if's way of marking the return value as invalid is returning strArray+23, which isn't null but it's also not an element in the array, so that's "invalid" or "not found". Just compare against strArray+23 instead of NULL and you get the same effect. –  Robert Dailey Jun 28 '11 at 13:46

The problem with your code is that you're NOT checking iterator against the end of the array, before this line:

std::cout<<*iterator<<'\n';

which should actually be this:

if (iterator != (strArray+23))  //print only if iterator != end
     std::cout<<*iterator<<'\n';

See this. Its working now.

It doesn't print "an" anymore. :-)

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Others have already told you the iterator is invalid, so I won't repeat that. However, here is a quick type-up of a solution that should work for you. As a side-note, don't use "magic numbers" to represent your array sizes. This is error-prone because if the size of the array changes (i.e. you add another element to it later) then it is easy to forget to update the 23 to 24. Consider this solution:

static unsigned const length = sizeof( strArray );
std::string const* end = strArray+length;
std::string const * iterator = find_if(strArray, end, [c](std::string str){
                                  return toupper(str[0]) == c;
                               });
if( iterator != end ) {
    std::cout<<*iterator<<'\n';
}

Note I couldn't compile this, as I do not have a C++0x compiler, so consider this pseudo-code if nothing else.

share|improve this answer
    
length is actually sizeof( strArray ) / sizeof( strArray[0] ); because otherwise it counts the size of the pointers. –  Mark B Jun 28 '11 at 13:37
    
@MarkB I thought about that, but since strArray is a static array, I thought sizeof(strArray) will return the number of elements in the array, not the number of bytes. Also I think it's an array of std::string s, not pointers. However, I haven't done C++ in a while so I could be mistaken. Ultimately the ideal solution is to use std::vector<std::string> anyway. –  Robert Dailey Jun 28 '11 at 13:42
    
will that be efficient however? –  badmaash Jun 28 '11 at 13:50
    
@Abhi will what be efficient? Using std::vector? Yes. It essentially compiles down to basically the same assembler as it would if you used a regular array, like you're doing. However, efficiency isn't the only benefit. It makes your code more manageable and readable. It also cleans up a lot of boilerplate code and makes using STL algorithms more natural –  Robert Dailey Jun 28 '11 at 13:59
    
@Abhi Here is your code using std::vector: ideone.com/auh02 –  Robert Dailey Jun 28 '11 at 14:12

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