I want to implement push and pop operations in LLVM assembly.
The alloca instruction does not follow the concept of stack, push and pop.
subl $4, %esp movl %eax, 0(%esp)
addi $sp, $sp, -4 sw $t2, 0($sp)
movl 0(%esp), %eax addl $4, %esp
lw $t2, 0($sp) addi $sp, $sp, 4
I need a platform-independent solution.
I want to use the top of the stack to store temporary objects.
The expression "a*b + c*d + e*f" will need to store the result of three multiplications, the operands are big objects of a class and the operators are overloaded. The operation "a*b" will take many instructions, "a" and "b" cannot be modified during the multiplication, it means the object that will result from "a*b" cannot use the same memory place of "a" or "b".
In the code in a hypothetical language,
call_function( &Object(), &(a + b) );
"&Object()" will create an object on the stack and get its pointer, the pointer is a parameter to the function, and the object will be deleted after the function return.
I want to optimize recursive functions. I want to transform a recursive function into an iterative function and use the stack to push data that will be used later. I cannot use array because I do not know the largest number of recursive calls that will be on the stack.