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I am working on a program that makes an expression tree out of a postfix expression. However, I am currently having one huge problem with one thing - how to put a tree node into the STL stack?

This is the example algorithm in words: 2 3 + 5 -

Go left from right. If what you're reading is an operand, put it into a stack. 2 goes in the stack. 3 goes in the stack. If it's an operator, let it be the root of the node, pop out the first element in the stack, let it be on the right, pop the second one out, let it be on the left and then push the tree node into the tree. Rinse and repeat.

I have no problems with pushing a char into an STL tree, but I can't seem to find out how to do it with the node. Is it even possible with STL or do I actually need to code my own stacks?

Code can be provided if necessary.

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Looks like you need a common superclass to hold operator nodes and operands? –  Stephen Lin Mar 3 '13 at 3:05
    
(STL containers can hold any types, but every element has to be an instance of that type) –  Stephen Lin Mar 3 '13 at 3:07
    
Is it not possible though to use more types? I found out that I can do for example stack<std::pair <char,float > > mystack; however, I am not sure whether that changes anything and whether that works with tree nodes. –  kurekun Mar 3 '13 at 3:22
    
std::pair <char,float> is still a single type though. it looks like you need some kind of polymorphism. –  Stephen Lin Mar 3 '13 at 3:23
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Stop thinking of the operands as operands and start thinking of them as expressions (albeit somewhat boring ones). From that you have two fundamental constructions: expr(val) and expr(op, expr, expr). Each time you read input, if it isn't a valid 'op' then treat it as a expr(val) and push it onto your stack. When you read an 'op' pop two expressions off the stack, construct a new expression via expr(op, expr, expr) and push the result back on to the stack. When you're done, whatever is one the stack is the final expression (and it better be the only thing left on the stack). –  WhozCraig Mar 3 '13 at 9:41

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