suppose the expression has length L , then each of your stacks will be at most L, so you will need at the most 2L memory.
increase ESP by 2L , at ESP you will have the beggining of your first stack,at ESP+L you will have the beggining of your second stack(it should be noted that neither of these stacks will ever exceed L beacause the expression is of length L).
The shunting yard algorithm can be found in various places.What it does is the conversion from infix notation
to postfix notation. After that the evaluation of the postfix notation will not be hard.
Edit: also,for manipulating the 2 stacks,you will need to store their stack pointers somewhere .
You can use 2 registers of your choice for that, EBX,ECX for example
make one have the value ESP and the other ESP+L.
Every time you will use one stack or the other you will have to update ESP with the appropriate EBX or ECX or wherever you may keep your 2 stack pointers because push and pop will modify ESP and you will want them to modify the version of ESP that is needed and not another one.Also when you finished pop/push you must update EBX/ECX with the values of ESP.
