I was wandering through the code of Sequitur G2P and found a really strange line of code:

    const Node *childrenEnd() const { return (this+1)->finalized.firstChild_; }

I know that this is a pointer to the current object, and since it is a pointer, the operation is perfectly legal, but what does this+1 actually refer to?

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    One of the problems of C++, and reason smart pointers were added to the standard library, was that raw pointers had too many roles. Both as iterators and as owning handles. This code snippet however seems to relish in this ambiguity and its abuse. – StoryTeller Jul 27 '17 at 8:04
  • It's only ever used here return binarySearch(childrenBegin(), childrenEnd() - 1, t); with -1 does that make a difference? – JeffUK Jul 27 '17 at 8:06
  • @JeffUK No it doesn't, if this+1 is pointed to something different but still try to dereference with ->finalized then it crash right away – AtheS21 Jul 27 '17 at 10:54
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    This code hurts my eyes. I hope this is called in a very controlled environment. – Shirkam Jul 27 '17 at 11:42
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    I don't think the new title is appropriate, this+1 is not an increment, this++ is. Obviously, you cannot reassign the value of this in C++. I came back to this question confused by the non sense of the title thinking it was another question. – Winter Jul 27 '17 at 16:40

Presumably this is part of an array, so this+1 would refer to the next object in that array.

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    then isn't this operation extremely risky? since there is no guarantee that this object comes in a array or the next object belongs to the same class – AtheS21 Jul 27 '17 at 3:38
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    But this is definitely UB for the last object.Right? – Gaurav Sehgal Jul 27 '17 at 4:06
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    No, just doing this + 1 is not UB. Dereferencing the result with ->finalized is though. – Johann Gerell Jul 27 '17 at 7:33
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    @AtheS21: C++ arrays are homogeneous. If there's a next element, it has the same type. It's only the "no next element" that forms a risk. – MSalters Jul 27 '17 at 9:12
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    It's actually part of a std:vector<> not part of a C-style array, but the standard guarantees contiguous memory for these too. This bit of code is part of a private implementation class, and is actually only called from one place. The construction of the objects guarantees that it is safe. – Jack Aidley Jul 27 '17 at 12:35

this is simply a pointer which refers to this object. Since it's a pointer, you can apply pointer arithmetic and even array indexing.

If this object is an element in an array, this+1 would point to the next object in the array.

If it's not, well it's just going to treat whatever is at that memory the same as this object, which will be undefined behaviour unless it is the same type.

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    Yeah, I see the problem, however since this is the code of a pretty well-known tool in NLP, I thought there must be a good reason to do so. This is the first time I've seen code like this – AtheS21 Jul 27 '17 at 4:11
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    "If it's not (some definitive statement)" No, Undefined Behaviour is Undefined. It could do anything. If the compiler can prove you always go off the end it can emit an empty program, or one that formats your hd or whatever it wants – Caleth Jul 27 '17 at 8:12
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    @M.M: Lack of defined behavior is also undefined behavior. The C++ standard doesn't enumerate all undefined behavior. (C does, IIRC, in an appendix). – MSalters Jul 27 '17 at 9:42
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    @M.M That's wrong. If you dereference a pointer which points one beyond the end of an array, you have UB. (If that pointer happens to compare equal to the address of another object of the same type, you probably won't get a crash, but you still have UB - except I can't find chapter and verse for that.) – Martin Bonner Jul 27 '17 at 10:39
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    @AtheS21 No, UB is deeper than this. It controls the optimisations available to the compiler; if something is UB, the compiler can treat it as "this will never happen", and optimise accordingly, including (as Caleth noted) changing your whole program to return 1 or whatever. For example, if you dereference a pointer and follow that with a null-check of the same pointer, the compiler will conclude that the block of code will never execute, since the pointer cannot possibly be null, since you tried to dereference it. But if the dereference is optimised away, you get no run-time error :) – Luaan Jul 27 '17 at 10:59

As it is NLP it makes sense to optimize memory management. I assume you find overloaded new/delete methods as well.

The this+1 construct assumes all objects reside in an array. The name 'childrenEnd' of the method indicates it returns a pointer to an address of the end of the children of the current node.

Thus you are looking at an implementation of a tree structure. All siblings are adjacent and their children as well.


"this + 1" in C++ class means:

if the "this" object is a member of another object it will point to the address of the parent's object next variable declared just after the "this" object variable:


class B
    void* data()
        return this + 1;

class A
    B m_b;
    char m_test;

int main(int argc, char* argv[])
    A a;
    a.m_test = 'H';

    void* p = a.m_b.data();
    char c;

    memcpy(&c, p, sizeof(char));
    return 0;

c is equal 'H'.

Long story short it allows to access to parent's class data without passing parent's pointer to the child class. In this example this + 1 point to the m_test member of the class A.

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