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I have a struct that looks like this,

struct Foo {
    int a;

I have a vector of these structs that look like this,

vector<Foo> foos;

All of the Foos are sorted by the integer a in ascending order using the STL sort() function. Now I want to get the Foo object that has the member field a less than or equal to a given number, like the STL lower_bound() function. The problem is that the STL lower_bound function declaration looks like this:

template <class ForwardIterator, class T, class Compare>
  ForwardIterator lower_bound ( ForwardIterator first, ForwardIterator last,
                                const T& value, Compare comp );

So while I want to do something like,

lower_bound(foos.begin(), foos.end(), 5, custom_comp);

I can't because the int I'm looking for (5 in this case) is not of the type Foo. I'm having this issue with lower_bound(), upper_bound(), and binary_search(). custom_comp only defines the ordering and doesn't define that an object with a = 5 actually equals the int 5.

Is there any elegant way of doing this with STL?


I realized my example doesn't completely represent my problem. What I actually have is that Foo contains two ints, a and b. When I call lower_bound, I don't have access to b (because I don't care about it). Now the issue with billz answer is that I'd have to define a constructor that takes only a as a parameter, which isn't very elegant in my opinion (because b is left undefined or abitrary, and this constructor can be used anywhere in the code). But if this is the only option, I'll take it.

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3 Answers 3

up vote 2 down vote accepted

You could provide a constructor to your struct Foo

struct Foo {
  Foo(int x):a(x){
    int a;

you can now call:

std::lower_bound(foos.begin(), foos.end(), 5, custom_comp);


std::lower_bound(foos.begin(), foos.end(), Foo(5), custom_comp);


Foo f(5);
std::lower_bound(foos.begin(), foos.end(), f, custom_comp);

The suggested way is:

struct Foo {
  explicit Foo(int x):a(x){
    int a;

std::lower_bound(foos.begin(), foos.end(), Foo(5), custom_comp);
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Would I then have to define a operator== for Foo? –  gsingh2011 Nov 13 '12 at 1:56
@gsingh2011 no, an operator<, but only if you don't use custom_comp which does the same thing. –  Seth Carnegie Nov 13 '12 at 1:57
@billz What's the point of making the constructor explicit? –  gsingh2011 Nov 13 '12 at 2:07
sometimes implicit conversion is painful –  billz Nov 13 '12 at 2:11
Problem 1: Foo with only an int state may not be a valid Foo. Problem 2: Foo could be expensive to make. Problem 3: You are hacking the data structure so you can run some algorithm on the data structure that doesn't require any hacking on the data structure. –  Yakk Nov 13 '12 at 3:34

In C++11, you can use the following:

std::lower_bound(foos.begin(), foos.end(), Foo{5},
    [](const Foo& f1, const Foo& f2) { return f1.a < f2.a; });

Or in C++03:

Foo f = {5};
std::lower_bound(foos.begin(), foos.end(), f, custom_comp);
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Have your custom_comp accept both foo and int as arguments. This means it either needs to be a functor, or it could take foo_sort_helper arguments (which can be constructed from an int or a foo) and order those.

Or, to be explicit:

struct FooSortHelper
  int ordering;
  FooSortHelper( Foo const& foo ):ordering(foo.value) {}
  FooSortHelper( int i ): ordering(i) {}
  FooSortHelper( FooSortHelper const& other):ordering(other.ordering) {}
  bool operator<( FooSortHelper const& other ) { return ordering < other.ordering }

auto lower = std::lower_bound( vec.begin(), vec.end(), 5,
  []( FooSortHelper left, FooSortHelper right ) {
    return left < right;

You see how I encapsulate how Foo is sorted in the FooSortHelper? And by allowing it to be constructed from an int, I allow Foo to be compared against int seemlessly.

The alternative I mentioned is to create a class with operator() overloaded on each pair of Foo and int (all 4 of them). I find the above easier.

If the type(s) you are sorting on is expensive to copy (such as std::string) the FooSortHelper can store a reference to said fields.

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But lower_bound would try passing Foo to custom_comp... It wouldn't know to pass the int inside Foo. –  gsingh2011 Nov 13 '12 at 2:04
Exactly. So custom_comp takes both Foos and ints. This requires either a functor struct custom_comp { bool operator()(int, Foo const&) const; bool operator()(Foo const&, int) const; bool operator()(int, int) const; bool operator()(Foo const&, Foo const&) const; };, which I find tiresome, or the above helper trick. The helper can be constructed by either a Foo or an int and stores only the parts of the Foo that are required for sorting. I did it with a lambda, but you could use a custom_comp function or functor if you prefer. –  Yakk Nov 13 '12 at 3:37

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