TL;DR
Ruby is behaving properly, but might be confusing if you're coming from another language. This confusion is most often caused by:
- Not understanding truth-values and false-values in Ruby, especially when evaluating the truthiness of control expressions.
- Using a flow-control operator like
and
to test for equality instead of ==
.
- Misunderstanding how the parser sees your "comparison" as two separate expressions.
To fix the problem you describe, use an equality operator to test for truthiness. A more detailed explanation follows.
Ruby Returns the Last Expression Evaluated
In Ruby, every expression returns a value. When you evaluate expressions like:
1 and 0 #=> 0
you aren't checking the truthiness of each expression as you would be with an actual Boolean-returning expression such as:
!!(1 and 0) #=> true
Instead, you are simply evaluating two expressions in sequence, unless the first expression evaluates as nil or false and short-circuits the evaluation. Either way, Ruby returns the value of the last expression evaluated. In this case, you could get the same result with:
1; 0 #=> 0
What the Parser Sees
Using Ruby standard libraries, you can see what the parser sees. For example:
require 'pp'
require 'ripper'
pp Ripper.sexp '1 and 0'
#=> [:program, [[:binary, [:@int, "1", [1, 0]], :and, [:@int, "0", [1, 6]]]]]
The S-expression may be a little clearer and easier to read when using the ruby_parser gem instead of Ripper. For example:
require 'pp'
require 'ruby_parser'
pp RubyParser.new.parse '1 and 0'
#=> s(:and, s(:lit, 1), s(:lit, 0))
Either way, since the first expression 1
evaluates as an Integer literal (e.g. something other than nil or false), 0
is then evaluated. The second Integer literal also evaluates as true, and therefore the entire expression is true (which is irrelevant in this context) and returns 0, since 0
was the last expression evaluated.
What You Actually Want
In Ruby, all values other than nil or false are true. Instead of the and operator, you usually want to compare expressions with an equality operator such as == or forcibly-cast an expression into a Boolean context with !!
. For example:
# Evaluate equality and return a Boolean result.
1 == 1 #=> true
0 == 1 #=> false
# Evaluate whether an expression is equal to true. In this case,
# the double-negation of `!!` casts each Integer as a Boolean value.
!!1 == true #=> true
!!0 == true #=> true
# Use `and` flow-control operator to evaluate right-hand expression
# if the left-hand side evaluates as truthy.
(1) and (true) #=> true
(1) and (false) #=> false
true
andfalse
along withand
to get the desired behavior, i.e.false and true #=> false
. (or any other combination of true-value and false-value)