The form for an
<guard 1> -> <body1> ;
<guard 2> -> <body2> ;
It works trying the guards in if-clauses in top-down order (this is defined) until it reaches a test which succeeds, then the body of that clause is evaluated and the
if expression returns the value of the last expression in the body. So the
else bit in other languages is baked into it. If none of the guards succeeds then an
if_clause error is generated. A common catch-all guard is just
true which always succeeds, but a catch-all can be anything which is true.
The form for a
case <expr> of
<pat 1> -> <body1> ;
<pat 2> -> <body2> ;
It works by first evaluating and then trying to match that value with patterns in the case-clauses in op-down order (this is defined) until one matches, then the body of that clause is
evaluated and the
case expression returns the value last expression in the body. If no pattern matches then a
case_clause error is generated.
case are both expressions (everything is an expression) so they both must return values. That is one reason why there is no default value if nothing succeeds/matches. Also to force you to cover all options; this is especially important for
if is just a degenerate case of
case so it inherited it. There is a bit of history of
if in the Erlang Rationale which you can find on trapexit.org under user contributions.