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4.12 — An introduction to std::string

The very first C++ program you wrote probably looked something like this:

So what is “Hello, world!” exactly? “Hello, world!” is a collection of sequential characters called a string. In C++, we use strings to represent text such as names, addresses, words, and sentences. String literals (such as “Hello, world!\n”) are placed between double quotes to identify them as strings.

Because strings are commonly used in programs, most modern programming languages include a fundamental string data type. In C++, strings aren’t a fundamental type (they’re actually a compound type, and defined in the C++ standard library rather than as part of the core language). But strings are straightforward and useful enough that we’ll introduce them here rather than wait until the chapter on compound types (chapter 8 [1]).


To use strings in C++, we first need to #include the <string> header to bring in the declarations for std::string. Once that is done, we can define variables of type std::string.

Just like normal variables, you can initialize or assign values to strings as you would expect:

Note that strings can hold numbers as well:

In string form, numbers are treated as text, not numbers, and thus they can not be manipulated as numbers (e.g. you can’t multiply them). C++ will not automatically convert string numbers to integer or floating point values.

String output

Strings can be output as expected using std::cout:

This prints:

My name is: Alex

Empty strings will print nothing:

Which prints:


String input with std::cin

Using strings with std::cin may yield some surprises! Consider the following example:

Here’s the results from a sample run of this program:

Enter your full name: John Doe
Enter your age: Your name is John and your age is Doe

Hmmm, that isn’t right! What happened? It turns out that when using operator>> to extract a string from cin, operator>> only returns characters up to the first whitespace it encounters. Any other characters are left inside std::cin, waiting for the next extraction.

So when we used operator>> to extract a string into variable name, only "John" was extracted, leaving " Doe" inside std::cin. When we then used operator>> to get variable age, it extracted "Doe" instead of waiting for us to input an age. Then the program ends.

Use std::getline() to input text

To read a full line of input into a string, you’re better off using the std::getline() function instead. std::getline() takes two parameters: the first is std::cin, and the second is your string variable.

Here’s the same program as above using std::getline():

Now our program works as expected:

Enter your full name: John Doe
Enter your age: 23
Your name is John Doe and your age is 23

What the heck is std::ws?

In lesson 4.8 -- Floating point numbers [2], we discussed output manipulators, which allow us to alter the way output is displayed. In that lesson, we used the output manipulator function std::setprecision() to change the number of digits of precision that std::cout displayed.

C++ also supports input manipulators (defined in the iomanip header), which alter the way that input is accepted. The std::ws input manipulator tells std::cin to ignore any leading whitespace. Note that std::ws is not a function.

Let’s explore why this is useful. Consider the following program:

Here’s some output from this program:

Pick 1 or 2: 2
Now enter your name: Hello, , you picked 2

This program first asks you to enter 1 or 2, and waits for you to do so. All good so far. Then it will ask you to enter your name. However, it won’t actually wait for you to enter your name! Instead, it prints the “Hello” string, and then exits. What happened?

It turns out, when you enter a value using operator>>, std::cin not only captures the value, it also captures the newline character ('\n') that occurs when you hit the enter key. So when we type 2 and then hit enter, std::cin receives gets the string "2\n". It then extracts the 2 to variable choice, leaving the newline character behind for later. Then, when std::getline() goes to read the name, it sees "\n" is already in the stream, and figures we must have previously entered an empty string! Definitely not what was intended.

We can amend the above program to use the std::ws input manipulator, to tell std::getline() to ignore any leading whitespace characters:

Now this program will function as intended.

Pick 1 or 2: 2
Now enter your name: Alex
Hello, Alex, you picked 2

Best practice

If using std::getline to read strings, use the std::ws input manipulator to ignore leading whitespace.

Key insight

Using the extraction operator (>>) with std::cin ignores leading whitespace.
std::getline does not ignore leading whitespace unless you use input manipulator std::ws.

String length

If we want to know how many characters are in a std::string, we can ask the std::string for its length. The syntax for doing this is different than you’ve seen before, but is pretty straightforward:

This prints:

Alex has 4 characters

Note that instead of asking for the string length as length(myName), we say myName.length(). The length() function isn’t a normal standalone function -- it’s a special type of function that belongs to std::string called a member function. We’ll cover member functions, including how to write your own, in more detail later.


std::string is complex, leveraging many language features that we haven’t covered yet. Fortunately, you don’t need to understand these complexities to use std::string for simple tasks, like basic string input and output. We encourage you to start experimenting with strings now, and we’ll cover additional string capabilities later.

Quiz time

Question #1

Write a program that asks the user to enter their full name and their age. As output, tell the user how many years they’ve lived for each letter in their name (for simplicity, count spaces as a letter).

Sample output:

Enter your full name: John Doe
Enter your age: 46
You've lived 5.75 years for each letter in your name.

Show Solution [3]

4.13 -- Literals [4]
Index [5]
4.11 -- Chars [6]