The POSIX standard, IEEE Std 1003.1-1990, is entitled IEEE Standard for Information Technology--Portable Operating System Interface (POSIX)--Part 1: System Application Program Interface (API) [C Language], ISBN 1-55937-061-0.
The Motif 1.2 standard, IEEE Std 1295, is entitled Standard for Information Technology--X Window System Graphical User Interface--Modular Toolkit Environment.
For information on ordering IEEE Std 1003.1-1990 and IEEE Std 1295, see "Related Books."
Also, the make program functionality can differ across platforms. If you want to write just one makefile for your application, use the common make functionality used by the platforms to which you want to port your program. Avoid platform-specific make features.
The Common Desktop Environment requires no additional defined constants (-D parameters) to integrate with the desktop. If you do follow a standard, such as POSIX, you might need to compile with additional standard-specific flags. Read about the standard to find out if it includes special compiler considerations.
Each subdirectory of /usr/dt/examples contains sample makefile source files for different platforms. These makefiles take into account system differences. In particular, see the /usr/dt/examples/dtdts directory for generic examples of makefiles.
-I/usr/dt/include
to each makefile's compile line.
-L/usr/dt/lib -l<libname1> -l<libname2>...
to each makefile's link line, where libname1
, libname2
are the names of libraries your application needs to reference. You can include as many desktop library names in this line as you want. For example:
-L/usr/dt/lib -lDtSvc -ltt -lXm
enables your application to reference the Desktop Services, ToolTalk Messaging System, and Motif 1.2 libraries.Do not place length limitations on file names that an end user generates.
The incompatibility occurs because a subclass must contain compiled-in references to its instance fields that are specified relative to the start address of the widget instance. When you install a new Motif library for a widget whose superclass instance structure has been extended, the compiled-in references will point to the wrong memory location.
To avoid this difficulty, Motif provides a mechanism for defining resources and accessing widget fields that allows you to reference all fields in the instance and constraint structures relative to the start of the widget part structure, instead of the overall widget structure. (The overall widget structure includes the superclass part structure.) The mechanism resolves these relative references at run time, when the widget class is first initialized. To resolve references, it factors in the size of the widget's superclass instance structure, which it reads from the currently linked Motif library.
For details regarding this Motif mechanism, consult the Motif 1.2 XmResolvePartOffsets(3x) and XmResolveAllPartOffsets(3x) man pages and the OSF/Motif Programmer's Reference . You can find example source code in /usr/dt/examples/motif/dogs .