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I have a strange problem where elements in a std::vector gets changed even though they're set as const. The code looks like this:

for (int i = 0 ; i < simLength ; i++) {
    const meshType m = meshType(*(simulator->getMesh()));


Further up the vector is declared as

std::vector<meshType> meshes;

I have fairly routine experience with C++ but I still get caught on some basic errors from time to time. This looks like it could be one of them but I'm not sure.

The problem is that when I add a mesh and print it, it looks fine, but when the simulator ticks and I print it again, it have changed to the mesh that is currently in the simulator. This made me suspect I was saving a pointer, but I cannot for the life of me find out how.

I orignaly did not push const objects, but changed it in a desperate gambit to make it work.

Any tips would be appriciated.

== EDIT ==

The meshType is a typedef of the mmesh class which contains a copy constructor:

MFloatPointArray* vertices;
MIntArray* faceCounts;
MIntArray* faceConnects;

mmesh::mmesh(const gmesh& orig) {
    vertices = new MFloatPointArray(*orig.getVertices());
    faceCounts = new MIntArray(*orig.getFaceCounts());
    faceConnects = new MIntArray(*orig.getFaceConnects());
share|improve this question
Does your meshType implement proper copy semantics? vector::push_back copies the element into the vector. The const you added would have no effect here. – Collin Nov 12 '13 at 16:46
I have created a copy constructor for the mesh if that is what you mean (see edit in question). If not, an explenation would be appriciated. – Martinnj Nov 12 '13 at 16:52
up vote 2 down vote accepted

std::vector, as it grows on the fly and is sequential. That requires copying/moving following a reallocation, can not be used with const types directly. You either need to use vector of pointers so that only pointers will be moved around instead of objects or some other container like std::deque that does not require the elements to be moved/copied unless you erase an element, or a container like std::list that does not move/copy an element ever.

list.push_back(e) will copy the e element you give as the argument to inside the vector so the new element inside list won't be const. You need to define your container as std::list<const meshType> but then if anything modifies element inside the container you won't be able to compile the code.

Any member functions will be assumed to be modifying the class if they are not marked const in declaration and definition. On const objects you can only call methods that are marked as const:

In header file:

class A
 size_t getSomething() const;

And in source file:

A::getSomething() const
{ ... }

Further information:

const functions can only alter variables that are declared mutable.

When you define the class object as const, vertices pointer will be const but not the data it points to. Something can't assign a new address to vertices but it can modify what it points to. You will still need to define it as const Type* vertices;, without you putting const there, it is Type* const vertices; if the object is const.

share|improve this answer
I have tried to mark the type as const meshType but this does not change anything sadly. And the methods used are all marked const so it should be ok. Which again makes me think think its pointers, thats usually where I go wrong anyway. – Martinnj Nov 12 '13 at 16:55
@Martinnj I have edited the answer a bit. Is what getting changed marked mutable? If it is not and something still modifies elements of std::vector<const meshType> then maybe whatever modifying it uses const_cast to cast away constness (const_cast on already constructed classes is undefined behavior). – Etherealone Nov 12 '13 at 16:59
No, the values that change are the content in the MFloatPointArray in the mmesh. (the vertices array in the edited question). – Martinnj Nov 12 '13 at 17:00
You can't (reasonably) make a vector of const objects. Elements need to be assignable. You'd have to have a const assignment operator, which is just ridiculous. – Benjamin Lindley Nov 12 '13 at 17:00
Then you'd have to have a move constructor which takes a const r-value reference, which is also ridiculous. – Benjamin Lindley Nov 12 '13 at 17:03

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