Here is a more exact version.
Local variables are allocated:
- Usually on the stack;
- In registers if the optimizer can use it: for instance, a simple method with just a loop and a
var i: integer declared as local variable will likely allocate
i as a CPU register, for better speed.
How is stack allocated?
On both x86 and x64 scheme, the compiler has the same process:
- It first computes all the space needed, at compile time;
- It generates code to reserve this space on the stack (e.g. a
MOV EBP,ESP; SUB ESP,16);
- It generates code to initialize reference-counted variables allocated on the stack (e.g.
string) - other kind of variables (like
integer) have no default value, and can be any random content which is on the stack;
- It generates an hidden
try..finally block if there are some reference-counted variables;
- It generates the code for the internal of the function/method;
- Now here the
finally part of the function/method: it generates code to free all reference-counted variables;
- It generates code to release the space on the stack (e.g. an
- It generates code to return to the caller function.
Most of the time, a "stack frame" (pointed by register
EBP) is created: it is used to access directly all the variables allocated on the stack.
There is a specific handling of the
result variable of a function: sometimes, it is a CPU/FPU register, sometimes, it is a variable initialized by the caller, and passed as an additional parameter.
On x64, it is a bit more complicated, since exceptions are not handled the same, and all registers need to have some space allocated on the stack, if there is an inner call.
On Mac OS, there are some alignment issues.
All this stack allocation / initialization process is the reason why for some small functions/methods, declaring them
inline will make the code faster to execute: all this stack handling is sometimes slow, if the process within the function is very simple.
For more details, see the official Delphi documentation.