# removing elements by value in C++ - does the preferred idiom really consist of a double negative?

I came across this answer to the question of removing elements by value in C++:

C++ Erase vector element by value rather than by position?

Basically:

``````vec.erase(std::remove(vec.begin(), vec.end(), valueToRemove), vec.end());
``````

The answer makes sense, but isn't this bad style? The logic is consists of a double negative... is there a cleaner way to do this?

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Where do you see a double negative? –  jalf Sep 5 '11 at 16:06
Check this out: en.wikipedia.org/wiki/Erase-remove_idiom Suggestion: get a copy of Scott Meyer's Effective STL –  Antonio Pérez Sep 5 '11 at 16:16
What is a "double negative"? Do you mean a general/logical double negative or is this some software-design term I don't know. In the latter case what does it mean? And in the former case, strange question! –  Christian Rau Sep 5 '11 at 16:29
see below - it was a misconception on my part. feel free to remove the question... –  daj Sep 6 '11 at 4:22

Deleting an element from a collection consists of two steps:

• Moving down all subsequent elements to fill in the holes created by matches
• Marking the new end

With the C++ standard library, these are two separate functions, `remove` and `erase`, respectively.

One could certainly imagine an `erase_if` type of function which would be easier to use, but evidently the current code is considered good enough. Of course you can write your own `remove_if`.

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I see, I think I actually misinterpreted the answer. Takes a while to understand all these C++ idioms. I like the wikipedia entry too : en.wikipedia.org/wiki/Erase-remove_idiom –  daj Sep 5 '11 at 16:24

This isn't bad and in fact an efficient way of removing elements from a vector based on a condition in linear time. Watch this video from 35th minute. STL explanation for the Erase and Remove Idiom

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Remember that there are different types of containers: Contiguous vs node-based, and sequential vs associative.

Node-based containers allow efficient erase/insert. Sequential containers organize elements by insertion order (i.e. position), while associative containers arrange them by (key) value.

All current associative containers (map/set/unordered) are node-based, and with them you can erase elements directly, and you should use the element-wise member `erase` function directly. Lists are node-based sequence containers, so you can erase individual elements efficiently, but finding an element by value takes linear time, which is why lists offer a member `remove` function. Only sequence containers (vector and deque) have no easy way to erase elements by value, and that's where the free `remove` algorithm comes in, which first rearranges the sequence to then allow the container's member `erase` to perform an efficient erasure at the end of the container.

Unlike the many generic aspects of the standard library which work without any knowledge of the underlying container, the copy/erase idiom is one of those things which require a bit of detail knowledge about the differences between the containers.

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