To make slow code fast, there are a few things you can do. First, make sure your code is correct. Wrong results are still wrong results, even if you get them quickly. To that end, make sure that when you call
VirtualQuery, you're passing in valid values for all the parameters. At that start of this function
mbi is uninitialized, so the result of
DWORD(mbi.BaseAddress) + MBI.RegionSize will be who-knows-what.
Once you have correctly working code, there are two ways to make it faster:
Find the slow parts and make them fast. To do this right, you need a profiler. A profiler will observe your program as it runs, and then tell you what percentage of time your program spent executing each part. That tells you where to focus your efforts.
Replace slow algorithms with faster algorithms. This might mean throwing away the entire function, or it might mean fixing just certain parts of the code.
For example, profiling might show that you spend a lot of time call
ProcessMessages. You can't really make that function any faster since it's part of the VCL, but you can call it less often. You might even find that you don't need to call it at all, if the thread you're running this code on isn't expected to receive any messages that need processing.
Profiling might show that you're spending a lot of time doing string comparisons. If the starts of your strings are frequently equal, and usually only differ at the end, then you might wish to change your string-comparison algorithm to start comparing strings at the last character instead of the first.
Profiling might show that you're spending a lot of time converting integers into strings before you compare them. Most programming languages support comparing integers directly, so instead of using a string-comparing algorithm, you could try using an integer-comparing algorithm instead. You could convert
scanvalue to an integer with
StrToInt(scanvalue) and compare it directly to
Profiling might show that you're repeatedly calculating the same result from the same input. If a value doesn't change over some portion of a program, then values calculated from it won't change, either. You can reduce the cost of converting values by doing it only when a value has changed. For example, if you do integer comparisons, then you'll probably find that the integer version of
scanvalue doesn't change in your function. You could convert
scanvalue to an integer once at the start of the function, and then compare
value to that inside the loop instead of calling
StrToInt(scanvalue) lots of times.