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in c++

class bar
{
    int i;
    char b;
    float d;
};

void foo ( bar arg );
void foo ( bar &arg );
void foo ( bar *arg );

this is a sample class/struct and functions
i have some Qs

  • what's the difference between 1st and 2nd way of passing the argument in 'asm', size, speed ?
  • how the arguments are passed to the functions foo in each case ( in case of pointer i know the pointer is pushed on the stack )
  • when passing arguments, in terms of efficiency at ( speed, size, preferability ) which is better ?
  • what's the intel 'asm' syntax that corresponds each of the ways of passing arguments ?

i know what most say about "it doesn't matter on modern compilers and CPUs" but what if we're talking about Old CPUs or compilers?

thanks in advance

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1  
CPU won't matter. Pass by value involves more work for all but types smaller than the size of a pointer. See the answer from cnicutar. –  edA-qa mort-ora-y Jul 18 '11 at 12:35
    
it matters on modern cpus as well as old cpus. Note that the x86 is an old cpu even with its modern improvements it has a fair amount of old school baggage that it has to carry around, particularly related to this topic. cnicutar has such a good answer it is not worth repeating or rephrasing. –  dwelch Jul 19 '11 at 1:01

5 Answers 5

up vote 13 down vote accepted

The pointer and the reference methods should be quite comparable (both in speed, memory usage and generated code).

Passing a class directly forces the compiler to duplicate memory and put a copy of the bar object on the stack. What's worse, in C++ there are all sort of nasty bits (the default copy constructor and whatnot) associated with this.

In C I always use (possibly const) pointers. In C++ you should likely use references.

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1  
Not just comparable, but the exact same. A reference is just a syntactic variant of a pointer. –  edA-qa mort-ora-y Jul 18 '11 at 12:34
3  
except for the differences mentioned here: stackoverflow.com/questions/57483/… –  Tobias Langner Jul 18 '11 at 12:47
2  
@edA: Please provide a quote from the standard that proves "A reference is just a syntactic variant of a pointer." –  FredOverflow Jul 18 '11 at 13:06
4  
From the draft standard 2010: "[ Note: a reference can be thought of as a name of an object. —end note ]" pg. 179. "It is unspecified whether or not a reference requires storage", pg. 180. –  drb Jul 18 '11 at 13:17
1  
@Fred, Tobias' link is good. It may not be guaranteed, but there is no other reasonable way to implement them. So for any compiler I know they are just syntactic differences. –  edA-qa mort-ora-y Jul 18 '11 at 16:31

When do we pass arguments by reference or pointer?

1) To modify local variables of the caller function: A reference (or pointer) allows called function to modify a local variable of the caller function. For example, consider the following example program where fun() is able to modify local variable x of main().

void fun(int &x) {
    x = 20;
}

int main() {
    int x = 10;
    fun(x);
    cout<<"New value of x is "<<x;
    return 0;
}

Output: New value of x is 20


2) For passing large sized arguments: If an argument is large, passing by reference (or pointer) is more efficient because only an address is really passed, not the entire object. For example, let us consider the following Employee class and a function printEmpDetails() that prints Employee details.

class Employee {
private:
    string name;
    string desig;

    // More attributes and operations
};

void printEmpDetails(Employee emp) {
     cout<<emp.getName();
     cout<<emp.getDesig();

    // Print more attributes
}

The problem with above code is: every time printEmpDetails() is called, a new Employee abject is constructed that involves creating a copy of all data members. So a better implementation would be to pass Employee as a reference.

void printEmpDetails(const Employee &emp) {
     cout<<emp.getName();
     cout<<emp.getDesig();

    // Print more attributes 
}

This point is valid only for struct and class variables as we don’t get any efficiency advantage for basic types like int, char.. etc.


3) To avoid Object Slicing: If we pass an object of subclass to a function that expects an object of superclass then the passed object is sliced if it is pass by value. For example, consider the following program, it prints “This is Pet Class”.

#include <iostream>
#include<string>

using namespace std;

class Pet {
public:
    virtual string getDescription() const {
        return "This is Pet class";
    }
};

class Dog : public Pet {
public:
    virtual string getDescription() const {
        return "This is Dog class";
    }
};

void describe(Pet p) { // Slices the derived class object
    cout<<p.getDescription()<<endl;
}

int main() {
    Dog d;
    describe(d);
    return 0;
}

Output: This is Pet Class

If we use pass by reference in the above program then it correctly prints “This is Dog Class”. See the following modified program.

#include <iostream>
#include<string>

using namespace std;

class Pet {
public:
    virtual string getDescription() const {
        return "This is Pet class";
    }
};

class Dog : public Pet {
public:
    virtual string getDescription() const {
        return "This is Dog class";
    }
};

void describe(const Pet &p) { // Doesn't slice the derived class object.
    cout<<p.getDescription()<<endl;
}

int main() {
    Dog d;
    describe(d);
    return 0;
}

Output: This is Dog Class

This point is also not valid for basic data types like int, char, .. etc.


4) To achieve Run Time Polymorphism in a function We can make a function polymorphic by passing objects as reference (or pointer) to it. For example, in the following program, print() receives a reference to the base class object. print() calls the base class function show() if base class object is passed, and derived class function show() if derived class object is passed.

#include<iostream>
using namespace std;

class base {
public:
    virtual void show() {  // Note the virtual keyword here
        cout<<"In base \n";
    }
};


class derived: public base {
public:
    void show() {
        cout<<"In derived \n";
    }
};

// Since we pass b as reference, we achieve run time polymorphism here.
void print(base &b) {
    b.show();
}

int main(void) {
    base b;
    derived d;
    print(b);
    print(d);
    return 0;
}

Output: In base
In derived

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In any reasonable way passing by reference will probably result in code involving addresses of objects. However, the main issue is that using references is more idiomatic C++ and should be the preferred style; you should really not be seeing raw pointers a lot at all in your own code.

Also note that passing by value and by reference is fundamentally different in the sense that passing by reference allows the callee to modify the argument. If anything, you should be comparing f(bar) with f(const bar &).

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Pointers and references differ syntactically, and usually are identical in runtime and code generation. As to older compilers... I knew one bug in Borland 3 C++ DOS compiler: it cached an int value (passed by reference) in a register, modified it and did not change the original value in memory. When passing by pointer an equivalent code worked as expected.

However, I don't think any modern compiler may do such strange things (and Borland 5 has fixed the issue)

As to code style (apart from pointers vs. smartpointers tradeoff), I usually use references if the address can not be NULL by function contract, and use pointers otherwise.

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1  
Borland 3? That's so old I'm not sure it even supports color monitors. –  MSalters Jul 18 '11 at 14:20
    
@MSalters: it supports color text monitors.. and even c++ references... in some specific way :) –  user396672 Jul 18 '11 at 14:26

Function foo can modify arg in cases 2 and 3. In first cases compiler could optimize copy creation, so it is very hard to compare cpu and memory usage.

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