The evaluation order of expressions is commonly undefined. (C and C++ are the same way. Java always evaluates left-to-right.) The compiler offers no control over it. If you need two expressions to be evaluated in a specific order, then write your code differently. I wouldn't really worry about the number of lines of code. Lines are cheap; use as many as you need. If you find yourself using this pattern often, write a function that wraps it all up:
function GetFirstIfAvailable(DB: TDatabaseObject; const FieldName: string): Integer;
if DB.First = 0 then
Result := DB.ReturnFieldI(FieldName)
Result := 0;
Your original code probably wouldn't have been what you wanted, even if evaluation order were different. Even if
DB.First wasn't equal to zero, the call to
ReturnFieldI would still be evaluated. All actual parameters are fully evaluated before invoking the function that uses them.
Changing Math.pas wouldn't help you anyway. It doesn't control what order its actual parameters are evaluated in. By the time it sees them, they've already been evaluated down to a Boolean value and an integer; they're not executable expressions anymore.
The calling convention can affect evaluation order, but there's still no guarantee. The order that parameters are pushed onto the stack does not need to match the order in which those values were determined. Indeed, if you find that stdcall or cdecl gives you your desired evaluation order (left-to-right), then they are being evaluated in the reverse order of the one they're passed with.
The pascal calling convention passes arguments left-to-right on the stack. That means the leftmost argument is the one at the bottom of the stack, and the rightmost argument is at the top, just below the return address. If the
IfThen function used that calling convention, there are several ways the compiler could achieve that stack layout:
The way you expect, which is that each argument is evaluated and pushed immediately:
push (DB.First = 0)
Evaluate arguments right-to-left and store the results in temporaries until they're pushed:
tmp1 := DB.ReturnFieldI('awesomedata1')
tmp2 := (DB.First = 0)
Allocate stack space first, and evaluate in whatever order is convenient:
sub esp, 8
mov [esp], DB.ReturnFieldI('awesomedata1')
mov [esp + 4], (DB.First = 0)
IfThen receives the argument values in the same order in all three cases, but the functions aren't necessarily called in that order.
The default register calling convention also passes arguments left-to-right, but the first three arguments that fit are passed in registers. The registers used to pass arguments, though, are also the registers most commonly used for evaluating intermediate expressions. The result of
DB.First = 0 needed to be passed in the EAX register, but the compiler also needed that register for calling
ReturnFieldI and for calling
First. It was probably a little more convenient to evaluate the second function first, like this:
mov [ebp - 4], eax // store result in temporary
test eax, eax
mov edx, [ebp - 4]
Another thing to point out is that your first argument is a compound expression. There's a function call and a comparison. There's nothing to guarantee that those two parts are performed consecutively. The compiler might get the function calls out of the way first by calling
ReturnFieldI, and afterward compare the
First return value against zero.