Our code involves a POD (Plain Old Datastructure) struct (it is a basic c++ struct that has other structs and POD variables in it that needs to get initialized in the beginning.)

Based one what I've read, it seems that:

myStruct = (MyStruct*)calloc(1, sizeof(MyStruct));

should initialize all the values to zero, as does:

myStruct = new MyStruct();

However, when the struct is initialized in the second way, Valgrind later complains "conditional jump or move depends on uninitialised value(s)" when those variables are used. Is my understanding flawed here, or is Valgrind throwing false positives?

  • 1
    also, note that new MyStruct() wasn't required to set any padding bytes in C++03. In C++0x it is. Any padding bits will be set to 0 in C++0x. – Johannes Schaub - litb May 6 '11 at 16:51
  • Thanks for the catch, I edited my question. – Shadow503 May 6 '11 at 16:58
  • Releated FAQ: stackoverflow.com/questions/620137/… – Robᵩ May 6 '11 at 16:59
  • As I understand things, you should not get that error message. Perhaps your data structure is not a POD? Can you reduce your code to the smallest program that still demonstrates this behavior, and post that distilled program? (See sscce.org). – Robᵩ May 6 '11 at 17:03
  • What compiler? Can you post the definition of MyStruct? – Alan Stokes May 6 '11 at 17:04

In C++ classes/structs are identical (in terms of initialization).

A non POD struct may as well have a constructor so it can initialize members.
If your struct is a POD then you can use an initializer.

struct C
    int x; 
    int y;

C  c = {0}; // Zero initialize POD

Alternatively you can use the default constructor.

C  c = C();      // Zero initialize using default constructor
C  c{};          // Latest versions accept this syntax.
C* c = new C();  // Zero initialize a dynamically allocated object.

// Note the difference between the above and the initialize version of the constructor.
// Note: All above comments apply to POD structures.
C  c;            // members are random
C* c = new C;    // members are random (more officially undefined).

I believe valgrind is complaining because that is how C++ used to work. (I am not exactly sure when C++ was upgraded with the zero initialization default construction). Your best bet is to add a constructor that initializes the object (structs are allowed constructors).

As a side note:
A lot of beginners try to value init:

C c(); // Unfortunately this is not a variable declaration.
C c{}; // This syntax was added to overcome this confusion.

// The correct way to do this is:
C c = C();

A quick search for the "Most Vexing Parse" will provide a better explanation than I can.

  • 1
    Do you have a reference for this zero-initialising of variables in C++? Last I heard, it still has the same behaviour as C. IIRC, the MSVC compiler even dropped zero-initialising uninitialised members at some point (for performance reasons, I assume), which apparently created rather severe problems for the other MS divisions :) – Marc Mutz - mmutz May 6 '11 at 17:10
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    no, the C(), but it seems you are right. – Marc Mutz - mmutz May 6 '11 at 17:17
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    With a POD class, T, T() has always zero initialized the scalar subobjects. The name of the toplevel initialization was called different in C++98 than in C++03 ("default initialization" vs "value initialization"), but the end effect for PODs are the same. Both C++98 and C++03 would have all values in it be zero. – Johannes Schaub - litb May 6 '11 at 17:25
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    @RockyRaccoon C c(); unfortunately is not a variable declaration but rather a forward declaration of a function (A function called 'c' that takes no parameters and returns an object of type C). Google: Most Vexing Parse – Martin York Aug 15 '18 at 17:15
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    @RockyRaccoon The difference here and with the question you link to in your comment; is that in this case there are no parameters used in the construtor. So the compiler has a hard time parsing this and telling the difference between variable declaration and forward declaration of a function. It chooses forward function declaration. If you require a parameter in the constructor then the compiler can see this is a variable declaration without any issues. C c(4); Is a valid variable declaration. – Martin York Aug 15 '18 at 17:21

From what you've told us it does appear to be a false positive in valgrind. The new syntax with () should value-initialize the object, assuming it is POD.

Is it possible that some subpart of your struct isn't actually POD and that's preventing the expected initialization? Are you able to simplify your code into a postable example that still flags the valgrind error?

Alternately perhaps your compiler doesn't actually value-initialize POD structures.

In any case probably the simplest solution is to write constructor(s) as needed for the struct/subparts.


I write some test code:

#include <string>
#include <iostream>
#include <stdio.h>

using namespace std;

struct sc {
    int x;
    string y;
    int* z;

int main(int argc, char** argv)
   int* r = new int[128];
   for(int i = 0; i < 128; i++ ) {
        r[i] = i+32;
   cout << r[100] << endl;
   delete r;

   sc* a = new sc;
   sc* aa = new sc[2];
   sc* b = new sc();
   sc* ba = new sc[2]();

   cout << "az:" << a->z << endl;
   cout << "bz:" << b->z << endl;
   cout << "a:" << a->x << " y" << a->y << "end" << endl;
   cout << "b:" << b->x << " y" << b->y <<  "end" <<endl;
   cout << "aa:" << aa->x << " y" << aa->y <<  "end" <<endl;
   cout << "ba:" << ba->x << " y" << ba->y <<  "end" <<endl;

g++ compile and run:

a:854191480 yend
b:0 yend
aa:854190968 yend
ba:0 yend
  • Ok, I'm not so familiar with new sc; vs new sc(); . I would have thought the missing parens was an error. But this seems to demonstrate that the answer is correct (it does init to 0 when you use the default constructor.) – nycynik Apr 10 '19 at 5:45

You need to initialize whatever members you have in your struct, e.g.:

struct MyStruct {
    int someInt_;
    float someFloat_;

    MyStruct(): someInt_(0), someFloat_(1.0) {} // Initializer list will set appropriate values

  • In this case I'm not using a class, but a struct. – Shadow503 May 6 '11 at 16:47
  • A struct is a class. Edited my post :) – ralphtheninja May 6 '11 at 16:49
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    You don't need to do this for a POD – Alan Stokes May 6 '11 at 17:05
  • How does a struct have private members? – OS2 Jan 11 at 17:03
  • What do you mean how? By adding private in front of them, just like a normal class. – ralphtheninja Jan 11 at 17:36

Since it's a POD struct, you could always memset it to 0 - this might be the easiest way to get the fields initialized (assuming that is appropriate).

  • 1
    Whether it's a struct or a class has nothing to do with the ability to memset or create a constructor. See e.g. stackoverflow.com/questions/2750270/c-c-struct-vs-class – Erik May 6 '11 at 16:43
  • You wouldn't normally memset a class after creating it, since its constructor (presumably) did the initialization. – Scott C Wilson May 6 '11 at 16:44
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    there's no difference between "class" and "struct" in C++, except for the default protection (private and public, resp.). A struct can be a non-POD and a class can be a POD, these concepts are orthogonal. – Marc Mutz - mmutz May 6 '11 at 16:47
  • @mmutz and @Erik - agreed - shortened my answer to prevent confusion. – Scott C Wilson May 6 '11 at 17:19
  • memset() is not the best option, you can zero-initialize a POD struct by just calling its default ctor. – Nils Aug 20 '12 at 7:39

That seems to me the easiest way. Structure members can be initialized using curly braces ‘{}’. For example, following is a valid initialization.

struct Point 
   int x, y; 

int main() 
   // A valid initialization. member x gets value 0 and y 
   // gets value 1.  The order of declaration is followed. 
   struct Point p1 = {0, 1};  

There is good information about structs in c++ - https://www.geeksforgeeks.org/structures-in-cpp/

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