Algorithm solution:

std::generate(numbers.begin(), numbers.end(), rand);

Range-based for-loop solution:

for (int& x : numbers) x = rand();

Why would I want to use the more verbose std::generate over range-based for-loops in C++11?

  • 14
    Composability? Oh never mind, algorithms with iterators are often not composable anyway... :( Jan 10 '13 at 13:14
  • 2
    ...which aren't begin() and end()? Jan 10 '13 at 13:15
  • 6
    @jrok I expect many people to have a range function in their toolbox by now. (i.e. for(auto& x : range(first, last))) Jan 10 '13 at 13:15
  • 14
    boost::generate(numbers, rand); // ♪
    – Xeo
    Jan 10 '13 at 13:20
  • 5
    @JamesBrock We have discussed this often in the C++ chat room (it should be somewhere in the transcripts :P). The main issue is that algorithms often return one iterator, and take two iterators. Jan 10 '13 at 13:20

10 Answers 10


The first version

std::generate(numbers.begin(), numbers.end(), rand);

tells us that you want to generate a sequence of values.

In the second version the reader will have to figure that out himself.

Saving on typing is usually suboptimal, as it is most often lost in reading time. Most code is read a lot more than it is typed.

  • 13
    Saving on typing? Oh, I get it. Why oh why do we have the same term for "compile-time sanity checks" and "hitting keys on a keyboard"? :) Jan 10 '13 at 17:33
  • 25
    "Saving on typing is usually suboptimal" Nonsense; it's all about what library you're using. std::generate is long because you have to specify numbers twice for no reason. Hence: boost::range::generate(numbers, rand);. There's no reason you can't have both shorter and more legible code in a well-built library. Jan 10 '13 at 23:30
  • 9
    It's all in the eye of reader. For loop version is understandable with most programming backgrounds: put rand value to each element of collection. Std::generate requires knowing recent C++, or guessing that generate actually means "modify items", not "return generated values".
    – hyde
    Jan 11 '13 at 5:03
  • 2
    If you only want to modify part of a container then you can std::generate(number.begin(), numbers.begin()+3, rand), isn't it? So I guess to specify number twice may be useful sometimes.
    – Marson Mao
    Jan 11 '13 at 5:28
  • 7
    @MarsonMao: if you only have a two-argument std::generate(), you can instead do std::generate(slice(number.begin(), 3), rand) or even better with a hypothetical range slicing syntax like std::generate(number[0:3], rand) which removes the repetition of number while still allowing flexible specification of part of the range. Doing the reverse starting from a three argument std::generate() is more tedious.
    – Lie Ryan
    Jan 11 '13 at 10:38

Whether the for loop is range based or not does not make a difference at all, it only simplifies the code inside the parenthesis. Algorithms are clearer in that they show the intent.


Personally, my initial reading of:

std::generate(numbers.begin(), numbers.end(), rand);

is "we're assigning to everything in a range. The range is numbers. The values assigned are random".

My initial reading of:

for (int& x : numbers) x = rand();

is "we're doing something to everything in a range. The range is numbers. What we do is assign a random value."

Those are pretty darn similar, but not identical. One plausible reason I might want to provoke the first reading, is because I think the most important fact about this code is that it assigns to the range. So there's your "why would I want to...". I use generate because in C++ std::generate means "range assignment". As btw does std::copy, the difference between the two is what you're assigning from.

There are confounding factors, though. Range-based for loops have an inherently more direct way of expressing that the range is numbers, than iterator-based algorithms do. That's why people work on range-based algorithm libraries: boost::range::generate(numbers, rand); looks better than the std::generate version.

As against that, int& in your range-based for loop is a wrinkle. What if the value type of the range isn't int, then we're doing something annoyingly subtle here that depends on it being convertible to int&, whereas the generate code only depends on the return from rand being assignable to the element. Even if the value type is int, I still might stop to think about whether it is or not. Hence auto, which defers thinking about the types until I see what gets assigned -- with auto &x I say "take a reference to the range element, whatever type that might have". Back in C++03, algorithms (because they're function templates) were the way to hide exact types, now they're a way.

I think it has always been the case that the simplest algorithms have only a marginal benefit over the equivalent loops. Range-based for loops improve loops (primarily by removing most of the boilerplate, although there's a little more to them than that). So the margins draw tighter and perhaps you change your mind in some specific cases. But there's a still a style difference there.

  • Have you ever seen a user-defined type with an operator int&()? :) Jan 10 '13 at 23:32
  • @FredOverflow replace int& with SomeClass& and now you have to worry about conversion operators and single-parameter constructors not marked explicit. Jan 11 '13 at 8:20
  • @FredOverflow: don't think so. Which is why if it ever does happen, I won't be expecting it and no matter how paranoid I am about it now, it'll bite me if I don't happen to think of it then ;-) A proxy object could work by overloading operator int&() and operator int const &() const, but then again it could work by overloading operator int() const and operator=(int). Jan 11 '13 at 9:30
  • 1
    @rhalbersma: I don't think you have to worry about constructors, since a non-const ref doesn't bind to a temporary. It's only conversion operators to reference types. Jan 11 '13 at 9:38

In my opinion, Effective STL Item 43: "Prefer algorithm calls to hand-written loops." is still a good advice.

I usually write wrapper functions to get rid of the begin() / end() hell. If you do that, your example will look like this:

my_util::generate(numbers, rand);

I believe it beats the range based for loop both in communicating the intent and in readability.

Having said that, I must admit that in C++98 some STL algorithm calls yielded unutterable code and following "Prefer algorithm calls to hand-written loops" did not seem like a good idea. Luckily, lambdas have changed that.

Consider the following example from Herb Sutter: Lambdas, Lambdas Everywhere.

Task: Find first element in v that is > x and < y.

Without lambdas:

auto i = find_if( v.begin(), v.end(),
bind( logical_and<bool>(),
bind(greater<int>(), _1, x),
bind(less<int>(), _1, y) ) );

With lambda

auto i=find_if( v.begin(), v.end(), [=](int i) { return i > x && i < y; } );
  • 1
    A bit orthogonal to the question. Only the first sentence addresses the question. Jan 10 '13 at 13:38
  • @DavidRodríguez-dribeas Yes. The second half is explaining why I think Item 43 is still a good advice.
    – Ali
    Jan 10 '13 at 13:39
  • With Boost.Lambda, it's even better than with C++ lambda functions: auto i = find_if(v.begin(), v.end(), _1 > x && _1 < y); Jan 10 '13 at 14:20
  • 1
    +1 for wrappers. Doing the same. Should've been in the standard from day 1 (or maybe 2... )
    – Macke
    Feb 4 '13 at 6:05

In my opinion, the manual loop, though might reduce verbosity, lacks readabitly:

for (int& x : numbers) x = rand();

I would not use this loop to initialize1 the range defined by numbers, because when I look at it, it seems to me that it is iterating over a range of numbers, but in actuality it does not (in essence), i.e instead of reading from the range, it is writing to the range.

The intent is much clearer when you use std::generate.

1. initialize in this context means to give meaningful value to the elements of the container.

  • 5
    Isn't that just because you aren't used to range-based for loops, though? It seems fairly clear to me that this statement assigns to each element in the range. It's clear that generate does the same iff you're familiar with std::generate, which can be assumed of a C++ programmer (if they're not familiar, they'll look it up, same result). Jan 10 '13 at 13:33
  • 4
    @SteveJessop: This answer does not differ from the other two. It requires a bit more effort from the reader and is a bit more error prone (what if you forget a single & character?) The advantage of algorithms is that they show intent, while with loops you have to infer that. If there is a bug in the implementation of the loop, it is not clear whether it is a bug or it was intentional. Jan 10 '13 at 13:34
  • 1
    @DavidRodríguez-dribeas: this answer differs from the other two, IMO significantly. It tries to drill into the reason that the author finds one piece of code more clear/comprehensible than the other. The others state it without analysis. That's why I find this one interesting enough to respond to it :-) Jan 10 '13 at 13:35
  • 1
    @SteveJessop: You've to look into the body of the loop to come to that conclusion that you're actually generating numbers, but in case of std::generate, just by a mere look, one can say something is being generated by this function; what that something is answered by the third argument to the function. I think this is much better.
    – Nawaz
    Jan 10 '13 at 13:36
  • 1
    @SteveJessop: So it means you belong to the minority. I would write code which is clearer to the majority :P. Just last one: I didn't say anywhere that others will read the loop in the same way as I did. I said (rather meant) that this is one way to read the loop which is misleading to me, and because the loop body is there, different programmers will read it differently to figure out what is happening there; they might object to the usage of such loop, for different reasons, all of which could be correct according to their perception.
    – Nawaz
    Jan 10 '13 at 13:44

There are some things you cannot do (simply) with range-based loops that algorithms that take iterators as input can. For example with std::generate:

Fill the container up to limit (excluded, limit is a valid iterator on numbers) with variables from one distribution and the rest with variables from another distribution.

std::generate(numbers.begin(), limit, rand1);
std::generate(limit, numbers.end(), rand2);

Iterator-based algorithms give you a better control on the range you are operating on.

  • 8
    While the readability reason is a HUGE one to prefer algorithms, this is the only answer that shows range-based for-loop is only a subset of what algorithms are, and hence cannot deprecate anything...
    – K-ballo
    Jan 10 '13 at 23:06

For the particular case of std::generate, I agree with the previous answers on readability/intent issue. std::generate seems a more clear version to me. But I admit that this is in a way a matter of taste.

That said, I've have another reason to not throw away the std::algorithm - there are certain algorithms which are specialized for some data types.

The simplest example would be std::fill. The general version is implemented as a for-loop over the provided range, and this version will be used when instantiating the template. But not always. E.g. if you'll provide it a range which is a std::vector<int> - often it will actually call memset under the hood, yielding a much faster and better code.

So I'm trying to play an efficiency card here.

Your hand-written loop might be as fast as a std::algorithm version, but it can hardly be faster. And more than that, std::algorithm may be specialized for particular containers and types and it's done under the clean STL interface.


My answer would be maybe and no. If we're talkinng about C++11, then maybe (more like no). For example std::for_each is really annoying to use even with lambdas:

std::for_each(c.begin(), c.end(), [&](ExactTypeOfContainedValue& x)
    // do stuff with x

But using range-based for is a lot better:

for (auto& x : c)
    // do stuff with x

On the other hand, if we're talking about C++1y, then I would argue that no, the algorithms will not be obsoleted by range based for. In C++ standard committee there is a study group that is working on a proposal to add ranges to C++, and also there is work being done on polymorphic lambdas. Ranges would remove the need to use pair of iterators and polymorphic lambda would let you to not specify exact argument type of lambda. This means that std::for_each could be used like this (don't take this as a hard fact, it's just what the dreams look like today):

std::for_each(c.range(), [](x)
    // do stuff with x
  • So in the latter case, the advantage of the algorithm would be that by writing [] with the lambda you specify zero-capture? That is, by comparison with just writing a loop body you've isolated a chunk of code from the variable lookup context that it lexically appears in. Isolation is usually helpful to the reader, less to think about while reading. Jan 10 '13 at 13:55
  • 1
    The capture is not the point. The point is that with polymorphic lambda you won't need to explicitly spell out what the type of x is. Jan 10 '13 at 14:25
  • 1
    In that case it seems to me that in this hypothetical C++1y, for_each is still pointless even when used with a lambda. foreach+capturing lambda is currently a verbose way of writing a range-based for loop, and it becomes slightly less verbose way but still more so than the loop. Not that I think you should have to defend for_each, of course, but even before seeing your answer I was thinking that if the questioner wanted to beat up algorithms, he could have picked for_each as the softest of all possible targets ;-) Jan 10 '13 at 14:33
  • Not going to defend for_each, but it has one tiny advantage over range-based for - you can make it parallel more easily just by prefixing it with parallel_ to turn it into parallel_for_each (if you use PPL, and assuming it's thread-safe to do so). :-D Jan 10 '13 at 15:10
  • @lego Your "tiny" advantage is indeed a "big" advantage if generalizing it up to the fact, that the std::algorithms' implementation is hidden behind their interface and might be arbitrarily complex (or arbitrarily optimized). Jan 11 '13 at 12:38

One thing that should be noticed is that an algorithm express what is done, not how.

Range-based loop include the way things are done: start with the first, apply and go next element until the end. Even a simple algorithm could do things differently (at least some overloads for specific containers, not even thinking about the horrible vector), and at least the way it is done is not the writer business.

TO me that's much of the difference, encapsulate as much as you can, and that justifies the sentence when you can, use algorithms.


Range-based for-loop is just that. Until of course standard is changed.

Algorithm is a function. A function which puts some requirements on its parameters. The requirements are phrased in a standard to allow for example implementation that takes advantage of all available execution threads and will speed you up automatically.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.