A process' priority determines how its execution is scheduled by the Win32
kernel. Processes with a higher priority execute more quickly than
processes with a lower priority. This article describes how to modify the
Process priority of a shelled application.
Win32 supports the following four priority classes:
Idle is the correct priority for system-monitoring applications or screen
Normal priority class is the default, indicating a process with no special
High priority indicates a process that performs time-critical tasks
requiring immediate execution for it to run correctly. The threads of a
high-priority class process preempt the threads of normal or idle priority
class processes. An example is the Windows Task List, which must respond
quickly when called by the user, regardless of the load on the operating
system. Use extreme care when using the high-priority class, because a high-
priority class CPU-bound application can use almost all available cycles.
The Realtime priority indicates a process that has the highest possible
priority. The threads of a real-time priority class process preempt the
threads of all other processes, including operating system processes
performing important tasks. For example, a real-time process that executes
for more than a very brief interval can cause disk caches not to flush or
cause the mouse to be unresponsive. This priority should almost never be
The process' priority is set by assigning one of the parameters of the
CreateProcess API call.
The following example demonstrates running the Windows NOTEPAD application
under Windows NT 4.0 and later Windows operating systems using an idle priority. The process priority is controlled
by the 'dwCreationFlags' variable passed to CreateProcess(). DEFINEs for
the four supported priority classes are listed at the top of the sample
Once Notepad.exe is running, to examine the priority, start the Windows
Task Manager, select the Processes tab, right-click Notepad.exe and select
'Set Priority' from the pop-up menu.
The fully qualified pathname to Notepad.exe may need modification in the
assignment statement of variable 'File2Run'.
#DEFINE NORMAL_PRIORITY_CLASS 32
#DEFINE IDLE_PRIORITY_CLASS 64
#DEFINE HIGH_PRIORITY_CLASS 128
#DEFINE REALTIME_PRIORITY_CLASS 1600
DECLARE INTEGER CreateProcess IN kernel32.DLL ;
INTEGER lpApplicationName, ;
STRING lpCommandLine, ;
INTEGER lpProcessAttributes, ;
INTEGER lpThreadAttributes, ;
INTEGER bInheritHandles, ;
INTEGER dwCreationFlags, ;
INTEGER lpEnvironment, ;
INTEGER lpCurrentDirectory, ;
STRING @lpStartupInfo, ;
DECLARE INTEGER GetLastError IN kernel32.DLL
* Startup info is 68 bytes, of which we need to
* initially populate the 'cb' or Count of Bytes member
* with the overall length of the structure.
* The remainder should be 0-filled.
START = long2str(68) + REPLICATE(CHR(0), 64)
* PROCESS_INFORMATION structure is 4 longs,
* or 4*4 bytes = 16 bytes, which we'll initially zero.
process_info = REPLICATE(CHR(0), 16)
* Start a copy of NOTEPAD (EXE name must be null-terminated)
File2Run = "C:\WINNT\NOTEPAD.EXE" + CHR(0)
* Call CreateProcess, obtain a process handle. Treat the
* application to run as the 'command line' argument, accept
* all other defaults. Important to pass the start and
* process_info by reference.
RetCode = CreateProcess(0, File2Run, 0, 0, 1, ;
IDLE_PRIORITY_CLASS, 0, 0, @START, @process_info)
* Unable to run, exit now.
IF RetCode = 0
=MESSAGEBOX("Error occurred. Error code: ", GetLastError())
* passed : 32-bit non-negative numeric value (m.longval)
* returns : ascii character representation of passed
* value in low-high format (m.retstr)
* example :
* m.long = 999999
* m.longstr = long2str(m.long)
PRIVATE i, m.retstr
m.retstr = ""
FOR i = 24 TO 0 STEP -8
m.retstr = CHR(INT(m.longval/(2^i))) + m.retstr
m.longval = MOD(m.longval, (2^i))
"Advanced Windows", Jeffrey Richter, Microsoft Press, pages 92-103, Third
Edition 1997, ISBN: 1-57231-548-2