.. | ||
.exercism | ||
test | ||
CMakeLists.txt | ||
HELP.md | ||
HINTS.md | ||
interest_is_interesting.cpp | ||
interest_is_interesting_test.cpp | ||
README.md |
Interest is interesting
Welcome to Interest is interesting on Exercism's C++ Track.
If you need help running the tests or submitting your code, check out HELP.md
.
If you get stuck on the exercise, check out HINTS.md
, but try and solve it without using those first :)
Introduction
Loops
Loops are used to repeatedly execute some logic.
The two most common types are the while loop
(indefinite looping) and the for loop
(definite, or counted looping).
There is also the for each
loop, that will come up in a later concept.
General Syntax
The for loop
consists of a header and a code block that contains the body of the loop wrapped in curly brackets.
The header consists of 3 components separated by semicolons ;
: init-statement, condition, and another expression.
Each of these may be empty.
for (init_statement; condition; expression) {
some_statement;
}
- The init_statement component is code that runs only once before the loop starts.
- The condition component must be some expression that evaluates to a
boolean
and controls when the loop should stop. The code inside the loop will run as long as this condition evaluates totrue
. As soon as this expression evaluates tofalse
, no more iterations of the loop will run. - The expression component is some code that will run at the end of each iteration.
The while loop
executes its body as long as its condition check is true
.
The code snippet below shows how to transform a for
into a while loop
.
init_statement;
while(condition) {
some_statement;
expression;
}
Interlude: Increments and Decrements
When working with loops it is often required to add 1 or subtract 1 from a counter variable which keeps track of the iterations.
This is so common, that the incrementing/decrementing actions have special operators: ++
and --
.
They come in a prefix and a postfix form. The prefix changes the variable before use in the statement and the postfix version afterward. You probably want the prefix version most of the time.
int a{3};
int b{--a};
// b is 2, a is now 2
int c{a++};
// c is 2, a is now 3
For Loops - An example
The init component usually sets up a counter variable, the condition checks whether the loop should be continued or stopped and the post component usually increments the counter at the end of each repetition.
int sum{0};
for (int i{1}; i < 10; ++i) {
sum += i;
}
This loop will sum the numbers from 1
to 9
(including 9
).
Break and Continue
Inside a loop body, you can use the break
keyword to stop the execution of the loop entirely:
int sum{2};
while(true) {
sum *= 2;
if (sum > 1000)
break;
}
// sum is now 1024
In contrast, the keyword continue
only stops the execution of the current iteration and continues with the next one:
int equal_sum{0};
for (int i{1}; i < 7; ++i) {
if (i%2 == 1) {
continue;
}
equal_sum += i;
}
// equal_sum is now 12
It is usually easier to understand the logic of the loop, when the use of `break` and `continue` is minimized or entirely avoided.
Both keywords skip certain sections of the code and make it often more difficult to follow along.
Instructions
In this exercise, you'll be working with savings accounts. Each year, the balance of your savings account is updated based on its interest rate. The interest rate your bank gives you depends on the amount of money in your account (its balance):
- 3.213% for a balance less than
0
dollars (balance gets more negative). - 0.5% for a balance greater than or equal to
0
dollars, and less than1000
dollars. - 1.621% for a balance greater than or equal to
1000
dollars, and less than5000
dollars. - 2.475% for a balance greater than or equal to
5000
dollars.
You have four tasks, each of which will deal with the balance and its interest rate.
1. Calculate the interest rate
Implement the interest_rate
function to calculate the interest rate based on the specified balance:
interest_rate(200.75);
// => 0.5
2. Calculate the interest
Implement the yearly_interest
function to calculate the interest based on the specified balance:
yearly_interest(200.75):
// => 1.003750
3. Calculate the annual balance update
Implement the annual_balance_update
function to calculate the annual balance update, taking into account the interest rate:
annual_balance_update(200.75);
// => 201.75375
4. Calculate the years before reaching the desired balance
Implement the years_until_desired_balance
function to calculate the minimum number of years required to reach the desired balance, taking into account that each year, interest is added to the balance.
This means that the balance after one year is: start balance + interest for start balance.
The balance after the second year is the balance after one year + interest for the balance after one year.
And so on, until the current year's balance is greater than or equal to the target balance.
double balance {200.75};
double targetBalance {214.88};
years_until_desired_balance(balance, targetBalance)
// => 14
Note that the value returned is an int
.
Source
Created by
- @vaeng