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I have a big object say MyApplicationContext which keeps information about MyApplication such as name, path, loginInformation, description, details and others..


class MyApplicationCtx{
       // ....
        std::string name;
        std::string path;
        std::string desciption;
        struct loginInformation loginInfo;
        int appVersion;
        std::string appPresident;

this is my method cloneApplication() which actually sets up a new application. there are two ways to do it as shown in Code 1 and Code 2. Which one should I prefer and why?

//Code 1

public void cloneApplication(MyApplicationCtx appObj){
    setAppAddress(&appObj); // Note this address is passed

public void setAppLoginInformation(MyApplicationCtx appObj){
    this->loginInfo = appObj.loginInfo; //assume it is correct

public void setAppAddress(MyApplicationCtx *appObj){
    this->address = appObj->address;

 .... // same way other setAppXXX(appObj) methods are called.

Q1. Does passing the big object appObj everytime has a performance impact?

Q2. If I pass it using reference, what should be the impact on performance?

public void setAppLoginInformation(MyApplicationCtx &appObj){ 
    this->loginInfo = appObj.loginInfo;

//Code 2

public void setUpApplication(MyApplicationCtx appObj){
    std::string appName;
    appName += appOj.getName();
    appName += "myname";

    std::string appPath;
    appPath += appObj.getPath();
    appPath += "myname";

    std::string appaddress;
    appaddress += appObj.getAppAddress();
    appaddress += "myname";

    ... same way setup the string for description and pass it to function

    struct loginInformation loginInfo = appObj.getLoginInfo();

    ... similarly appVersion
    ... similarly appPresident

Q3. Compare code 1 and code 2, which one should I use? Personally i like Code 1

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as for Q1: the impact of passing the object mught be neglible, yet it seems thet it would be best to pass it as a const reference, not just a reference (or does a MyApplicationCtx object actually get modified when copying it?) –  stijn Nov 11 '09 at 16:51
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8 Answers

up vote 2 down vote accepted

Short answer:

Q1: Given the size of your MyAppCtx class, yes, a significant performance hit will take place if the data is dealt with very frequently.

Q2: Minimal, you're passing a pointer.

Q3: Neither, for large objects like that you should use reference semantics and access the data through accessors. Don't worry about function call overhead, with optimizations turned on, the compiler can inline them if they meet various criteria (which I leave up to you to find out).

Long answer: Given functions:

void FuncByValue(MyAppCtx ctx);
void FuncByRef1(MyAppCtx& ctx);
void FuncByRef2(MyAppCtx* ctx);

When passing large objects like your MyApplicationCtx, it's a good idea to use reference semantics (FuncByRef1 & FuncByRef2), passing by reference is identical in performance to passing a pointer, the difference is only the syntax. If you pass the object by value, the object is copy-constructed into the function, such that the argument you pass into FuncByValue is different from the parameter FuncByValue receives. This is where you have to be careful of pointers (if any) contained in an object that was passed by value, because the pointer will have been copied as well, so it's very possible that more than one object will point to one element in memory at a given time, which could lead to memory leaks, corruption, etc.

In general, for objects like your MyAppCtx, I would recommend passing by reference and using accessors as appropriate.

Note, the reason I differentiated between argument and parameter above is that there is a difference between a function argument and a function parameter, it is as follows:

Given (template T is used simply to demonstrate that object type is irrelevent here):

template<typename T>
void MyFunc(T myTobject);

When calling MyFunc, you pass in an argument, eg:

int my_arg = 3;

And MyFunc receives a parameter, eg:

template<typename T>
void MyFunc(T myTobject)
  T cloned_param = T(myTobject);

In other words, my_arg is an argument, myTobject is a parameter.

Another note, in the above examples, there are essentially three versions of my_arg in memory: the original argument, the copy-constructed parameter myTobject, plus cloned_param which was explicitly copied as well.

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You make sense Geoff. I think if I am using references or pointers, there should be no impact on the performance. Passing by value unnecessarily creates temp objects which can effect Performance. –  pankajt Nov 11 '09 at 17:49
+1 on the distinction between argument and parameter. I think, nonetheless that the previous to last paragraph is a little misleading: in the snippet: int my_arg = 3; MyFunc(my_arg), my_arg is the argument and myTObject the parameter. The object by the name myTObject does not exist outside of the context of MyFunc (there could be a different object that has the same name, but not in this example) –  David Rodríguez - dribeas Nov 11 '09 at 18:48
You're right indeed dribeas, I've altered my answer. Thanks for the clarification. :) –  Geoff Nov 11 '09 at 20:07
Woops; Devil Jin. Yep. :) –  Geoff Nov 11 '09 at 20:12
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You're better off defining a Copy Constructor and an Assignment Operator:

// Note the use of passing by const reference!  This avoids the overhead of copying the object in the function call.
MyApplicationCtx(const MyApplicationCtx& other);
MyApplicationCtx& operator = (const MyApplicationCtx& other);

Better still, also define a private struct in your class that looks like:

struct AppInfo
    std::string name;
    std::string path;
    std::string desciption;
    struct loginInformation loginInfo;
    int appVersion;
    std::string appPresident;

In your App class' copy constructor and assignment operator you can take advantage of AppInfo's automatically generated assignment operator to do all of the assignment for you. This is assuming you only want a subset of MyApplicationCtx's members copied when you "clone".

This will also automatically be correct if you add or remove members of the AppInfo struct without having to go and change all of your boilerplate.

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+1. Especially because if Devil Jin doesn't the compiler might have some interesting surprises up its sleeve if objects get copied by more conventional methods than 'clone()' functions. –  Timo Geusch Nov 11 '09 at 16:50
Definately an excellent way to do it. –  ChadNC Nov 11 '09 at 17:08
Even if you go with the struct: Those can have member functions and ctors (and dtors). So you can also use a copy constructor and assignment operation on them. –  pmr Nov 11 '09 at 17:42
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Luke beat me to tell you about copy constructors, to answer your other questions passing a large object by value has a performance impact when compared to passing by reference, make it a const if the function won't change it as in this case.

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  • Why do you need to copy application object? Isn't it better to use singleton for this (with completely disabled copying by the way)?


  • Not only performance (yes, they will be copied) but memory too. As soon as I saw std::string implementations they at least occupy 2 memory chunks and first is in any case significantly less then minimal allocation size so such objects could cause memory efficiency problem if cloned extensively.


  • Passing reference is barely different (from performance point of view) from passing pointer so this should in general constant complexity. It is much better. Don't forget to add "const" modifier to block modifications.


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Pass by object is heavy operation since it will create copy by invoking copy constructor.


Pass reference to constant , it will improve perfomance.

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Q1 - yes, every time you pass an object a copy is done

Q2 - minimal since an object passed by reference is basically just a pointer

Q3 - It is generally not a good idea to have large monolithic objects, instead you should split your objects into smaller objects, this allows for better re-usability and makes the code easier to read.

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split your objects into smaller objects, how? –  pankajt Nov 11 '09 at 17:47
you have a number of strings that you copy between your original appobject and your new cloned one. Instead of having strings, you could create objects for these to hide the details, error handling, formatting etc. When you clone you just assign from original to clone fields. –  Claptrap Nov 12 '09 at 3:25
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The best practice for cloning an object where all the members are copyable, like "Code 1" appears to be doing, is to use the default copy constructor - you don't have to write any code at all. Just copy like this:

MyApplicationCtx new_app = old_app;

"Code 2" is doing something different to "Code 1", so choosing one over the other is a matter of what you want the code to do, not a matter of style.

Q1. Passing a large object by value will cause it to be copied, which will have an impact on performance.

Q2. Yes, passing a reference to a large structure is more efficient than passing a copy. The only way to tell how large the impact is is to measure it with a profiler.

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There is one single point that has not been dealt in any other of the answers (that focused on your explicit questions more than in the general approach). I agree with @luke in that you should use what is idiomatic: copy constructor and assignment operators are there for a reason. But just for the sake of discusion on the first possibility you presented:

In the first block you propose small functions like:

void setAppLoginInformation(MyApplicationCtx appObj){
    this->loginInfo = appObj.loginInfo; //assume it is correct

Now, besides the fact that the parameter should be passed by const reference, there are some other design issues there. You are offering a public operation that promises to change the login information, but the argument you require from your user is a full blown application context.

If you want to provide a method for just setting one of the attributes, I would change the method signature to match the attribute type:

void setAppLoginInformation( loginInformation const & li ); // struct is optional here

This offers the possibility of changing the loginInformation both with a full application context or just with some specific login information object you can build yourself.

If on the other hand you want to disallow changing particular attributes of your class and you want to allow setting the values only from another application context object, then you should use the assignment operator, and if you want to do it in terms of small setter functions (assuming that the compiler provided assigment operator does not suffice), make them private.

With the proposed design you are offering users the possibility of setting each attribute to any value, but you are doing so in a cumbersome, hard to use way.

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