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noob here. Having a doubt while doing an exercise from a book.

The doubt is the following: Why if I use a const std::string * as an argument to a method, the compiler sends me the following error: no matching function for call to 'BankAccount::define(const char [11], const char [11], int)' in the client?

If I swap the prototype and definition of the method to accept as an argument a const std::string & (like I did in the constructor) it's no problem for the compiler.


// usebacnt.cpp --

#include "BankAccount.h"
#include <iostream>

int main()
    BankAccount john;
    BankAccount mary("Mary Wilkinson", "5000000000"); // balance set to 0 because of default argument
    john.define("John Smith", "4000000000", 26); // error line
    return 0;

Class declaration:

// BankAccount.h -- Header file for project Exercise 10.1


#include <string>

class BankAccount
    std::string fullName;
    std::string accountNumber;
    double balance;
    BankAccount(); // default constructor
    BankAccount(const std::string &fN, const std::string &aN, double b = 0.0); // constructor with a default argument
    void display() const;
    void deposit(double amount);
    void withdraw(double amount);
    void define(const std::string *pfN, const std::string *paN, double b);


Class implementation:

// methods.cpp -- Compile alongside usebacnt.cpp

#include "BankAccount.h"
#include <iostream>

void BankAccount::display() const
    using std::cout;
    using std::ios_base;
    ios_base::fmtflags orig = cout.setf(ios_base::fixed, ios_base::floatfield); // formatting output and saving original
    cout << "Full Name: " << fullName << '\n';
    cout << "Account Number: " << accountNumber << '\n';
    cout << "Balance: " << balance << "\n\n";

void BankAccount::deposit(double amount)
    if (amount < 0)
        std::cout << "You can't deposit a negative number! Amount set to zero.";
        amount = 0;
    balance += amount;

void BankAccount::withdraw(double amount)
    if (amount < 0)
        std::cout << "You can't withdraw a negative number! Amount set to zero.";
        amount = 0;
    if (balance < amount)
        std::cout << "You can't withdraw more money than you have. Amount set to zero.";
        amount = 0;
    balance -= amount;

void BankAccount::define(const std::string *pfN, const std::string *paN, double b)
    fullName = *fN;
    accountNumber = *aN;
    balance = b;

// constructors
BankAccount::BankAccount() // default constructor
    fullName = "empty";
    accountNumber = "empty";
    balance = 0.0;

BankAccount::BankAccount(const std::string &fN, const std::string &aN, double b) // constructor with default argument
    fullName = fN;
    accountNumber = aN;
    balance = b;

Shouldn't the compiler interpret the literal as a string object (like it does with the reference)? So if I say it's a pointer it should pass the address of the string (its first element).

Any help?

share|improve this question
up vote 4 down vote accepted

Shouldn't the compiler interpret the literal as a string object (like it does with the reference)?

No. Pointers are not references; smack anyone who tells you that they are.

It all comes down to this: std::string is not a string literal. Therefore, when you pass a string literal to a function that takes a std::string, a temporary std::string that holds the contents of the literal must be created. This is done with the conversion constructor of std::string.

A const& is allowed to be initialized from a temporary, which allows conversion constructors to work their magic. A const* must be a pointer, and you're not supposed to get pointers to temporaries. Therefore, const* cannot be magically filled in by a temporary created from a conversion constructor.

You should use a const std::string & instead of a pointer. Or a std::string value if you have C++11 move constructors available.

share|improve this answer
So, following your logic: 1. if it's a reference. the compiler creates a temporary object to hold the string and passes a reference to it to the method. the method works with it and when it's finished the temporary object expires. 2. if it's a pointer to a string object, the compiler can't create a temporary object and assign the pointer the address of its first element. Is there any special reason for this? – Kurospidey Aug 10 '12 at 16:10
@Kurospidey: The reason for this is that pointers and references are different. They're not intended to be interchangeable. The technical reason is that pointers are a C construct and thus have to obey the rules of C constructs. References were new to C++, and thus they could give them properties that didn't exist in C. – Nicol Bolas Aug 10 '12 at 16:13
thanks for your help. So "conversion constructors" (i don't know yet what that kind of constructor is) can't read the literal and create the temporary object, and then the client assigns the address of its first element to the pointer. but they can create a temporary object and then the client creates a reference to it. My guess is that constructors do the whole proccess, it's not like the client creates the reference or the pointer on their own. It's a weird concept to assimilate from a noob to which c++ is his first language. – Kurospidey Aug 10 '12 at 16:21
@Kurospidey: the @ won't work for Nicol here, as he will be notified anyway as he is the owner of the answer. Regarding your learning process, I find that many people confuse the concept with the implementation, and that leads to further confusion. The concept of a reference is an alias to another object, and you can have an alias to a temporary. The implementation might be a pointer (or not, depending on the context), but you should not care about it at all. For most cases, that is an implementation detail you should not care about. – David Rodríguez - dribeas Aug 10 '12 at 16:48
@Kurospidey: Yes, arrays decay to pointers to the first element, and literals are arrays of const characters. But don't get confused, if you were to use string literal, given a literal "Hi" (type const char [3]), a function that takes that literal would be a const char*, not a const char (*)[3] --this might be more confusing but the important point is that it will not be a pointer to the literal, but a pointer to the first character of the literal. Even if literals where std::string, you would not be able to pass a literal to a function requiring a pointer, (or &"Hi" if allowed) – David Rodríguez - dribeas Aug 10 '12 at 17:00

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