What would be a good algorithm for converting from postfix to infix? I've searched and searched but I only get algorithms for converting from infix to postfix. They're going to be decently similar algorithms correct? I also want to incorporate parenthesis. For example, (((13  1) / 2)(3 + 5)). Thank you!

Maintain a stack 1. if you read a value push it to stack 2. if you read an operator, pop 2 values(say a,b) and push "(a operator b)" back to stack Seems like it will do – Sunny Agrawal Sep 27 '13 at 14:24
Here's the postfix version:
13 1  2 / 3 5 + *
To convert, parse it like an ordinary postfix parser, but store elements on the stack as a string, not as values:
"13"
"1"
""
when you get an operator, like above, convert to a single string and put parenthesis around it:
"(131)"
continuing:
"(131)"
"2"
"/"
becomes:
"((131)/2)"
continuing:
"((131)/2)"
"3"
"5"
"+"
becomes:
"((131)/2)"
"(3+5)"
finally:
"((131)/2)"
"(3+5)"
"*"
ends up as:
"((131)/2)*(3+5)"
you could treat "*" as a special case and omit it from the combined version.
We start with an empty stack. Assuming the postfix expression is correct :
 Read the atomic tokens and put them on stack
 when you reach an operator, pop n elements from the stack where n is the arity of the operator, format it correctly, put the brackets around it and push the resolution back to the stack
 when there's nothing to read, the stack should contain exactly one element with the result
For instance :
input : 2,3,+,5,,8,*
Stack contains after each step :
2
2,3
(2+3)
(2+3),5
((2+3)5)
((2+3)5),8
(((2+3)5)*8)
This would be my approach
while(input.hasNext()) {
symbol = input.readNextSymbol(); // read the whole token
if (symbol is operand) {
stack.push(symbol)
} else { // the symbol is an operator
if (stack.count < 2) {
ERROR too few operands
} else {
op2 = stack.pop();
op1 = stack.pop();
piece = "("+op1+symbol+op2+")";
stack.push(piece);
}
}
}
if (stack.count == 1) {
stack.pop() is the INFIX
} else {
ERROR
}
Of course if you want to consider unary operators, the conditions have to be a little more structured to consider the stack with a single element
Here is a full Ruby implementation of the algorithm mentioned:
#!/usr/bin/env ruby
parts = gets.strip.split(/ +/)
stack = [ ]
parts.each do part
if part =~ /\D/ # it's a binary operation
right_operand = stack.pop
left_operand = stack.pop
stack.push("(#{left_operand} #{part} #{right_operand})")
else # it's a number
stack.push(part)
end
end
if stack.size == 1
result = stack[0][1..2] # remove outer parentheses
puts result
exit(0)
else
puts "parse error, stack does not contain exactly one element"
exit(1)
end
Use like this:
echo '13 1  2 / 3 5 + *'  ruby postfixtoinfix.rb
This example produces the result:
((13  1) / 2) * (3 + 5)