en/src/flow-control.md
// Fill in the blanks
fn main() {
let n = 5;
if n < 0 {
println!("{} is negative", n);
} __ n > 0 {
println!("{} is positive", n);
} __ {
println!("{} is zero", n);
}
}
If/else expression can be used in assignments.
// Fix the errors
fn main() {
let n = 5;
let big_n =
if n < 10 && n > -10 {
println!(", and is a small number, increase ten-fold");
10 * n
} else {
println!(", and is a big number, halve the number");
n / 2.0 ;
}
println!("{} -> {}", n, big_n);
}
for in construct can be used to iterate through an Iterator, e.g a range a..b.
fn main() {
for n in 1..=100 { // modify this line to make the code work
if n == 100 {
panic!("NEVER LET THIS RUN")
}
}
println!("Success!");
}
// Fix the errors without adding or removing lines
fn main() {
let names = [String::from("liming"),String::from("hanmeimei")];
for name in names {
// Do something with name...
}
println!("{:?}", names);
let numbers = [1, 2, 3];
// The elements in numbers are Copy,so there is no move here
for n in numbers {
// Do something with n...
}
println!("{:?}", numbers);
}
fn main() {
let a = [4, 3, 2, 1];
// Iterate the indexing and value in 'a'
for (i,v) in a.__ {
println!("The {}th element is {}",i+1,v);
}
}
while keyword can be used to run a loop when a condition is true.
// Fill in the blanks to make the last println! work !
fn main() {
// A counter variable
let mut n = 1;
// Loop while the condition is true
while n __ 10 {
if n % 15 == 0 {
println!("fizzbuzz");
} else if n % 3 == 0 {
println!("fizz");
} else if n % 5 == 0 {
println!("buzz");
} else {
println!("{}", n);
}
__;
}
println!("n reached {}, so loop is over",n);
}
break to break the loop.
// Fill in the blank
fn main() {
let mut n = 0;
for i in 0..=100 {
if n == 66 {
__
}
n += 1;
}
assert_eq!(n, 66);
println!("Success!");
}
continue will skip over the remaining code in current iteration and go to the next iteration.
// Fill in the blanks
fn main() {
let mut n = 0;
for i in 0..=100 {
if n != 66 {
n+=1;
__;
}
__
}
assert_eq!(n, 66);
println!("Success!");
}
break or continue.
// Fill in the blanks
fn main() {
let mut count = 0u32;
println!("Let's count until infinity!");
// Infinite loop
loop {
count += 1;
if count == 3 {
println!("three");
// Skip the rest of this iteration
__;
}
println!("{}", count);
if count == 5 {
println!("OK, that's enough");
__;
}
}
assert_eq!(count, 5);
println!("Success!");
}
break to return a value
// Fill in the blank
fn main() {
let mut counter = 0;
let result = loop {
counter += 1;
if counter == 10 {
__;
}
};
assert_eq!(result, 20);
println!("Success!");
}
// Fill in the blank
fn main() {
let mut count = 0;
'outer: loop {
'inner1: loop {
if count >= 20 {
// This would break only the inner1 loop
break 'inner1; // `break` is also works.
}
count += 2;
}
count += 5;
'inner2: loop {
if count >= 30 {
// This breaks the outer loop
break 'outer;
}
// This will continue the outer loop
continue 'outer;
}
}
assert!(count == __);
println!("Success!");
}
You can find the solutions here(under the solutions path), but only use it when you need it