Iteration statements (loops)
Loops repeat a statement a certain number of times, or while a condition is fulfilled. They are introduced by the keywords while
, do
, and for
.
The while loop
The simplest kind of loop is the while-loop. Its syntax is:
while (expression) statement
The while-loop simply repeats
statement
while
expression
is true. If, after any execution of
statement
,
expression
is no longer true, the loop ends, and the program continues right after the loop. For example, let's have a look at a countdown using a while-loop:
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|
// custom countdown using while
#include <iostream>
using namespace std;
int main ()
{
int n = 10;
while (n>0) {
cout << n << ", ";
--n;
}
cout << "liftoff!\n";
}
|
10, 9, 8, 7, 6, 5, 4, 3, 2, 1, liftoff! | |
The first statement in
main
sets
n to a value of 10. This is the first number in the countdown. Then the while-loop begins: if this value fulfills the condition
n>0
(that
n is greater than zero), then the block that follows the condition is executed, and repeated for as long as the condition (
n>0
) remains being true.
The whole process of the previous program can be interpreted according to the following script (beginning in
main
):
n
is assigned a value
- The
while
condition is checked (n>0
). At this point there are two possibilities:
- condition is true: the statement is executed (to step 3)
- condition is false: ignore statement and continue after it (to step 5)
- Execute statement:
cout << n << ", ";
--n;
(prints the value of n
and decreases n
by 1)
- End of block. Return automatically to step 2.
- Continue the program right after the block:
print liftoff!
and end the program.
A thing to consider with while-loops is that the loop should end at some point, and thus the statement shall alter values checked in the condition in some way, so as to force it to become false at some point. Otherwise, the loop will continue looping forever. In this case, the loop includes
--n
, that decreases the value of the variable that is being evaluated in the condition (
n
) by one - this will eventually make the condition (
n>0
) false after a certain number of loop iterations. To be more specific, after 10 iterations,
n
becomes 0, making the condition no longer true, and ending the while-loop.
Note that the complexity of this loop is trivial for a computer, and so the whole countdown is performed instantly, without any practical delay between elements of the count (if interested, see
sleep_for
for a countdown example with delays).
The do-while loop
A very similar loop is the do-while loop, whose syntax is:
do statement while (condition);
It behaves like a while-loop, except that
condition
is evaluated after the execution of
statement
instead of before, guaranteeing at least one execution of
statement
, even if
condition
is never fulfilled. For example, the following example program echoes any text the user introduces until the user enters goodbye:
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// echo machine
#include <iostream>
#include <string>
using namespace std;
int main ()
{
string str;
do {
cout << "Enter text: ";
getline (cin,str);
cout << "You entered: " << str << '\n';
} while (str != "goodbye");
}
|
Enter text: hello
You entered: hello
Enter text: who's there?
You entered: who's there?
Enter text: goodbye
You entered: goodbye | |
The do-while loop is usually preferred over a while-loop when the
statement
needs to be executed at least once, such as when the condition that is checked to end of the loop is determined within the loop statement itself. In the previous example, the user input within the block is what will determine if the loop ends. And thus, even if the user wants to end the loop as soon as possible by entering
goodbye, the block in the loop needs to be executed at least once to prompt for input, and the condition can, in fact, only be determined after it is executed.
The for loop
The
for
loop is designed to iterate a number of times. Its syntax is:
for (initialization; condition; increase) statement;
Like the while-loop, this loop repeats
statement
while
condition
is true. But, in addition, the for loop provides specific locations to contain an
initialization
and an
increase
expression, executed before the loop begins the first time, and after each iteration, respectively. Therefore, it is especially useful to use counter variables as
condition
.
It works in the following way:
initialization
is executed. Generally, this declares a counter variable, and sets it to some initial value. This is executed a single time, at the beginning of the loop.
condition
is checked. If it is true, the loop continues; otherwise, the loop ends, and statement
is skipped, going directly to step 5.
statement
is executed. As usual, it can be either a single statement or a block enclosed in curly braces { }
.
increase
is executed, and the loop gets back to step 2.
- the loop ends: execution continues by the next statement after it.
Here is the countdown example using a for loop:
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|
// countdown using a for loop
#include <iostream>
using namespace std;
int main ()
{
for (int n=10; n>0; n--) {
cout << n << ", ";
}
cout << "liftoff!\n";
}
|
10, 9, 8, 7, 6, 5, 4, 3, 2, 1, liftoff! | |
The three fields in a for-loop are optional. They can be left empty, but in all cases the semicolon signs between them are required. For example,
for (;n<10;)
is a loop without
initialization or
increase (equivalent to a while-loop); and
for (;n<10;++n)
is a loop with
increase, but no
initialization (maybe because the variable was already initialized before the loop). A loop with no
condition is equivalent to a loop with
true
as condition (i.e., an infinite loop).
Because each of the fields is executed in a particular time in the life cycle of a loop, it may be useful to execute more than a single expression as any of
initialization,
condition, or
statement. Unfortunately, these are not statements, but rather, simple expressions, and thus cannot be replaced by a block. As expressions, they can, however, make use of the comma operator (
,
): This operator is an expression separator, and can separate multiple expressions where only one is generally expected. For example, using it, it would be possible for a for loop to handle two counter variables, initializing and increasing both:
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|
for ( n=0, i=100 ; n!=i ; ++n, --i )
{
// whatever here...
}
| |
This loop will execute 50 times if neither
n
or
i
are modified within the loop:
n
starts with a value of 0, and
i
with 100, the condition is
n!=i
(i.e., that
n
is not equal to
i
). Because
n
is increased by one, and
i
decreased by one on each iteration, the loop's condition will become false after the 50th iteration, when both
n
and
i
are equal to 50.
Range-based for loop
The for-loop has another syntax, which is used exclusively with ranges:
for ( declaration : range ) statement;
This kind of for loop iterates over all the elements in
range
, where
declaration
declares some variable able to take the value of an element in this range. Ranges are sequences of elements, including arrays, containers, and any other type supporting the functions
begin and
end; Most of these types have not yet been introduced in this tutorial, but we are already acquainted with at least one kind of range: strings, which are sequences of characters.
An example of range-based for loop using strings:
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|
// range-based for loop
#include <iostream>
#include <string>
using namespace std;
int main ()
{
string str {"Hello!"};
for (char c : str)
{
std::cout << "[" << c << "]";
}
std::cout << '\n';
}
|
[H][e][l][l][o][!] | |
Note how what precedes the colon (
:
) in the for loop is the declaration of a
char
variable (the elements in a string are of type
char
). We then use this variable,
c
, in the statement block to represent the value of each of the elements in the range.
This loop is automatic and does not require the explicit declaration of any counter variable.
Range based loops usually also make use of type deduction for the type of the elements with
auto
. Typically, the range-based loop above can also be written as:
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|
for (auto c : str)
std::cout << "[" << c << "]";
| |
Here, the type of
c
is automatically deduced as the type of the elements in
str
.