# Casting (type conversion)
# Casting to a Float
"123.50".to_f #=> 123.5
Float("123.50") #=> 123.5
However, there is a difference when the string is not a valid Float
:
"something".to_f #=> 0.0
Float("something") # ArgumentError: invalid value for Float(): "something"
# Casting to a String
123.5.to_s #=> "123.5"
String(123.5) #=> "123.5"
Usually, String()
will just call #to_s
.
Methods Kernel#sprintf
and String#%
behave similar to C:
sprintf("%s", 123.5) #=> "123.5"
"%s" % 123.5 #=> "123.5"
"%d" % 123.5 #=> "123"
"%.2f" % 123.5 #=> "123.50"
# Casting to an Integer
"123.50".to_i #=> 123
Integer("123.50") #=> 123
A string will take the value of any integer at its start, but will not take integers from anywhere else:
"123-foo".to_i # => 123
"foo-123".to_i # => 0
However, there is a difference when the string is not a valid Integer:
"something".to_i #=> 0
Integer("something") # ArgumentError: invalid value for Integer(): "something"
# Floats and Integers
1/2 #=> 0
Since we are dividing two integers, the result is an integer. To solve this problem, we need to cast at least one of those to Float:
1.0 / 2 #=> 0.5
1.to_f / 2 #=> 0.5
1 / Float(2) #=> 0.5
Alternatively, fdiv
may be used to return the floating point result of division without explicitly casting either operand:
1.fdiv 2 # => 0.5