Is it possible to initialize structs in C++ as indicated below

struct address {
    int street_no;
    char *street_name;
    char *city;
    char *prov;
    char *postal_code;
address temp_address =
    { .city = "Hamilton", .prov = "Ontario" };

The links here and here mention that it is possible to use this style only in C. If so why is this not possible in C++? Is there any underlying technical reason why it is not implemented in C++, or is it bad practice to use this style. I like using this way of initializing because my struct is big and this style gives me clear readability of what value is assigned to which member.

Please share with me if there are other ways through which we can achieve the same readability.

I have referred the following links before posting this question

  1. C/C++ for AIX
  2. C Structure Initialization with Variable
  3. Static structure initialization with tags in C++
  4. C++11 Proper Structure Initialization
  • 21
    Personal view of the world: you don't need this style of object initialization in C++ because you should be using a constructor instead. – Philip Kendall Jul 17 '12 at 5:50
  • 7
    Yes I thought of that, but I have an array of big Structure. It would be easy and readable for me to use this way. Do you have any style/good practice of initializing using Constructor which gives better readability too. – Dinesh P.R. Jul 17 '12 at 5:54
  • 2
    Have you considered the boost parameter library, in combination with constructors? boost.org/doc/libs/1_50_0/libs/parameter/doc/html/index.html – Tony Delroy Jul 17 '12 at 5:59
  • 21
    Not so programming related: this address works fine in the US only. In France, we don't have an "province", in other parts of the world, there is no postal code, a grand-mother of a friend lives in such a small village that her address is "Ms X, postal-code small-village-name" (yep, no street). So consider carefully what a valid address is to the market you will apply this to ;) – Matthieu M. Jul 17 '12 at 7:03
  • 6
    @MatthieuM. There are no provinces in the US (this might be a Canadian format?), but there are states, territories, and even tiny villages that don't bother to name streets. So the issue of address conformance applies even here. – Tim Nov 3 '13 at 23:18

16 Answers 16


If you want to make it clear what each initializer value is, just split it up on multiple lines, with a comment on each:

address temp_addres = {
  0,  // street_no
  nullptr,  // street_name
  "Hamilton",  // city
  "Ontario",  // prov
  nullptr,  // postal_code
  • 10
    I personally like and recommend this style – Dinesh P.R. Jul 17 '12 at 6:22
  • 58
    What is the difference between doing that, and actually using dot notation to access MORE ACCURATELY the field itself, its not like you are saving any space if that's what the concern is. I really don't get C++ programmers when it comes to being consistent and writing maintainable code, they seem to always want to do something different to make their code stand out, the code is meant to reflect the problem being solved it shouldn't be an idiom on its own, aim for reliability and ease of maintenance. – user1043000 Apr 29 '15 at 3:36
  • 14
    @user1043000 well, for one, in this case the order in which you put your members is of upmost importance. If you add a field in the middle of your structure, you will have to go back to this code and look for the exact spot in which to insert your new initialization, which is hard and boring. With the dot notation, you can simply put your new initialization at the end of the list without bothering with the order. And dot notation is way safer if you happen to add the same type (like char*) as one of the other members above or below in the structure, because there's no risk of swapping them. – Gui13 Nov 16 '16 at 9:21
  • 8
    orip's comment. If the data structure definition gets changed, and nobody thinks to look for the initializations, or can't find them all, or makes a mistake editing them, things will fall apart. – Edward Falk Jun 2 '17 at 18:46
  • 8
    Most (if not all) POSIX structs don't have a defined order, only defined members. (struct timeval){ .seconds = 0, .microseconds = 100 } will always be a hundred microsecond, but timeval { 0, 100 } might be a hundred SECONDS. You don't want to find something like that out the hard way. – yyny Sep 14 '18 at 18:54

After my question resulted in no satisfying result (because C++ doesn't implement tag-based init for structures), I took the trick I found here: Are members of a C++ struct initialized to 0 by default?

For you it would amount to do that:

address temp_address = {}; // will zero all fields in C++
temp_address.city = "Hamilton";
temp_address.prov = "Ontario";

This is certainly the closest to what you wanted originally (zero all the fields except those you want to initialize).

  • 11
    This does not work for statically inintialized objects – user877329 Apr 10 '14 at 9:24
  • 5
    static address temp_address = {}; will work. Filling it up afterwards is up to the runtime, yes. You can bypass this by providing a static function that does the init for you: static address temp_address = init_my_temp_address();. – Gui13 Apr 10 '14 at 9:27
  • 1
    In C++11, init_my_temp_address can be a lambda function: static address temp_address = [] () { /* initialization code */ }(); – dureuill Sep 4 '15 at 14:57
  • 3
    Bad idea, it violates the RAII principle. – Galaxy Nov 3 '17 at 3:20
  • 2
    Really bad idea: add one member to your address and you'll never know of all the places that create an address and now do not initialize your new member. – mystery_doctor May 7 '19 at 6:13

As others have mentioned this is designated initializer.

This feature is part of C++20


The field identifiers are indeed C initializer syntax. In C++ just give the values in the correct order without the field names. Unfortunately this means you need to give them all (actually you can omit trailing zero-valued fields and the result will be the same):

address temp_address = { 0, 0, "Hamilton", "Ontario", 0 }; 
  • 1
    Yes you can always use aligned struct initialization. – texasbruce Jul 17 '12 at 5:53
  • 4
    Yes, currently I am using this method only(Aligned Struct Initialization). But I feel the readability is not good. Since my Structure is big the initializer has so many data and it is difficult for me to track which value is assigned to which member. – Dinesh P.R. Jul 17 '12 at 5:57
  • 7
    @DineshP.R. Then write a constructor! – Mr Lister Jul 17 '12 at 5:59
  • 4
    @MrLister (or anyone) Perhaps I'm stuck in a cloud of stupidity at the moment, but care to explain how a constructor would be much better? Seems to me there's little difference between providing a bunch of order-dependent unnamed values to an initializer list or providing a bunch of order-dependent unnamed values to a constructor... ? – yano Apr 19 '18 at 20:01
  • 1
    @yano To be honest, I don't really recall why I thought a constructor would be the answer to the problem. If I remember, I'll come back to you. – Mr Lister Apr 20 '18 at 9:44

This feature is called designated initializers. It is an addition to the C99 standard. However, this feature was left out of the C++11. According to The C++ Programming Language, 4th edition, Section (C Features Not Adopted by C++):

A few additions to C99 (compared with C89) were deliberately not adopted in C++:

[1] Variable-length arrays (VLAs); use vector or some form of dynamic array

[2] Designated initializers; use constructors

The C99 grammar has the designated initializers [See ISO/IEC 9899:2011, N1570 Committee Draft - April 12, 2011]

6.7.9 Initialization

    { initializer-list }
    { initializer-list , }
    designation_opt initializer
    initializer-list , designationopt initializer
    designator-list =
    designator-list designator
    [ constant-expression ]
    . identifier

On the other hand, the C++11 does not have the designated initializers [See ISO/IEC 14882:2011, N3690 Committee Draft - May 15, 2013]

8.5 Initializers

    ( expression-list )
    = initializer-clause
    initializer-clause ...opt
    initializer-list , initializer-clause ...opt
    { initializer-list ,opt }
    { }

In order to achieve the same effect, use constructors or initializer lists:


You can just initialize via a constructor:

struct address {
  address() : city("Hamilton"), prov("Ontario") {}
  int street_no;
  char *street_name;
  char *city;
  char *prov;
  char *postal_code;
  • 11
    This is the case only if you control the definition of struct address. Also, POD types often intentionally have no constructor and destructor. – user4815162342 Jun 21 '14 at 16:38

I might be missing something here, by why not:

#include <cstdio>    
struct Group {
    int x;
    int y;
    const char* s;

int main() 
  Group group {
    .x = 1, 
    .y = 2, 
    .s = "Hello it works"
  printf("%d, %d, %s", group.x, group.y, group.s);
  • I compiled the above program with a MinGW C++ compiler, and an Arduino AVR C++ compiler, and both ran as expected. Notice the #include <cstdio> – run_the_race Sep 21 '18 at 19:54
  • 8
    @run_the_race, this is about what the c++ standard says not what a given compiler's behavior may be. However, this feature is coming in c++20. – Jon Oct 4 '18 at 15:28
  • this only works if the struct is POD. So it will stop compiling if you add a constructor to it. – oromoiluig Jun 16 '20 at 23:15

You can even pack Gui13's solution into single initialization statement:

struct address {
                 int street_no;
                 char *street_name;
                 char *city;
                 char *prov;
                 char *postal_code;

address ta = (ta = address(), ta.city = "Hamilton", ta.prov = "Ontario", ta);

Disclaimer: I don't recommend this style

  • This is still dangerous because it allows you to add a member to address and the code will still compile with a million places only initializing the original five members. The best part of struct initialization is that you can have all members const and it will force you to initialize them all – mystery_doctor May 7 '19 at 6:16

I know this question is quite old, but I found another way of initializing, using constexpr and currying:

struct mp_struct_t {
        constexpr mp_struct_t(int member1) : mp_struct_t(member1, 0, 0) {}
        constexpr mp_struct_t(int member1, int member2, int member3) : member1(member1), member2(member2), member3(member3) {}
        constexpr mp_struct_t another_member(int member) { return {member1, member,     member2}; }
        constexpr mp_struct_t yet_another_one(int member) { return {member1, member2, member}; }

    int member1, member2, member3;

static mp_struct_t a_struct = mp_struct_t{1}

This method also works for global static variables and even constexpr ones. The only disadvantage is the bad maintainability: Everytime another member has to be made initializable using this method, all member initialization methods have to be changed.

  • 2
    This is the builder pattern. The member methods can return a reference to the property to be modified instead of creating a new struct every time – phuclv Aug 15 '16 at 10:40

It's not implemented in C++. (also, char* strings? I hope not).

Usually if you have so many parameters it is a fairly serious code smell. But instead, why not simply value-initialize the struct and then assign each member?

  • 7
    "(also, char* strings? I hope not)." - Well, it is a C example. – Ed S. Jul 17 '12 at 6:06
  • cant we use char* in C++? Currently I am using it and it is working (may be I am doing something wrong). My assumption is that the compiler will create constant strings of "Hamilton" & "Ontario" and assign their address to the struct members. Will it be correct to use const char* instead? – Dinesh P.R. Jul 17 '12 at 6:13
  • 8
    You can use char* but const char* is much more type-safe and everybody just uses std::string because it's much more reliable. – Puppy Jul 17 '12 at 6:14
  • Ok. When I read "as mentioned below" I assumed it was an example copied from somewhere. – Ed S. Jul 17 '12 at 6:15

I found this way of doing it for global variables, that does not require to modify the original structure definition :

struct address {
             int street_no;
             char *street_name;
             char *city;
             char *prov;
             char *postal_code;

then declare the variable of a new type inherited from the original struct type and use the constructor for fields initialisation :

struct temp_address : address { temp_address() { 
    city = "Hamilton"; 
    prov = "Ontario"; 
} } temp_address;

Not quite as elegant as the C style though ...

For a local variable it requires an additional memset(this, 0, sizeof(*this)) at the beginning of the constructor, so it's clearly not worse it and @gui13 's answer is more appropriate.

(Note that 'temp_address' is a variable of type 'temp_address', however this new type inherit from 'address' and can be used in every place where 'address' is expected, so it's OK.)


In GNUC++ (seems to be obsolete since 2.5, a long time ago :) See the answers here: C struct initialization using labels. It works, but how?), it is possible to initialize a struct like this:

struct inventory_item {
    int bananas;
    int apples;
    int pineapples;

inventory_item first_item = {
    bananas: 2,
    apples: 49,
    pineapples: 4

I faced a similar problem today, where I have a struct that I want to fill with test data which will be passed as arguments to a function I'm testing. I wanted to have a vector of these structs and was looking for a one-liner method to initialize each struct.

I ended up going with a constructor function in the struct, which I believe was also suggested in a few answers to your question.

It's probably bad practice to have the arguments to the constructor have the same names as the public member variables, requiring use of the this pointer. Someone can suggest an edit if there is a better way.

typedef struct testdatum_s {
    std::string argument1;
    std::string argument2;
    std::string argument3;
    std::string argument4;
    int count;

    testdatum_s (
        std::string argument1,
        std::string argument2,
        std::string argument3,
        std::string argument4,
        int count)
        this->rotation = argument1;
        this->tstamp = argument2;
        this->auth = argument3;
        this->answer = argument4;
        this->count = count;

} testdatum;

Which I used in in my test function to call the function being tested with various arguments like this:

std::vector<testdatum> testdata;

testdata.push_back(testdatum("val11", "val12", "val13", "val14", 5));
testdata.push_back(testdatum("val21", "val22", "val23", "val24", 1));
testdata.push_back(testdatum("val31", "val32", "val33", "val34", 7));

for (std::vector<testdatum>::iterator i = testdata.begin(); i != testdata.end(); ++i) {
    function_in_test(i->argument1, i->argument2, i->argument3, i->argument4m i->count);

It is possible, but only if the struct you're initializing is a POD (plain old data) struct. It cannot contain any methods, constructors, or even default values.


In C++ the C-style initializers were replaced by constructors which by compile time can ensure that only valid initializations are performed (i.e. after initialization the object members are consistent).

It is a good practice, but sometimes a pre-initialization is handy, like in your example. OOP solves this by abstract classes or creational design patterns.

In my opinion, using this secure way kills the simplicity and sometimes the security trade-off might be too expensive, since simple code does not need sophisticated design to stay maintainable.

As an alternative solution, I suggest to define macros using lambdas to simplify the initialization to look almost like C-style:

struct address {
  int street_no;
  const char *street_name;
  const char *city;
  const char *prov;
  const char *postal_code;
#define ADDRESS_OPEN [] { address _={};
#define ADDRESS_CLOSE ; return _; }()

The ADDRESS macro expands to

[] { address _={}; /* definition... */ ; return _; }()

which creates and calls the lambda. Macro parameters are also comma separated, so you need to put the initializer into brackets and call like

address temp_address = ADDRESS(( _.city = "Hamilton", _.prov = "Ontario" ));

You could also write generalized macro initializer

#define INIT_OPEN(type) [] { type _={};
#define INIT_CLOSE ; return _; }()
#define INIT(type,x) INIT_OPEN(type) x INIT_CLOSE

but then the call is slightly less beautiful

address temp_address = INIT(address,( _.city = "Hamilton", _.prov = "Ontario" ));

however you can define the ADDRESS macro using general INIT macro easily

#define ADDRESS(x) INIT(address,x)

Inspired by this really neat answer: (https://stackoverflow.com/a/49572324/4808079)

You can do lamba closures:

// Nobody wants to remember the order of these things
struct SomeBigStruct {
  int min = 1;
  int mean = 3 ;
  int mode = 5;
  int max = 10;
  string name;
  string nickname;
  ... // the list goes on


class SomeClass {
  static const inline SomeBigStruct voiceAmps = []{
    ModulationTarget $ {};
    $.min = 0;  
    $.nickname = "Bobby";
    $.bloodtype = "O-";
    return $;

Or, if you want to be very fancy

#define DesignatedInit(T, ...)\
  []{ T ${}; __VA_ARGS__; return $; }()

class SomeClass {
  static const inline SomeBigStruct voiceAmps = DesignatedInit(
    $.min = 0,
    $.nickname = "Bobby",
    $.bloodtype = "O-",

There are some drawbacks involved with this, mostly having to do with uninitialized members. From what the linked answers comments say, it compiles efficiently, though I have not tested it.

Overall, I just think it's a neat approach.

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