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Chapter 5. Libraries, Headers, and Frameworks

Contents:

Header Files
The System Library: libSystem
Shared Libraries Versus Loadable Modules
Library Versions
Creating and Linking Static Libraries
Prebinding
Interesting and Important Libraries

In this chapter, we discuss the linking phase of building Unix-based software under Mac OS X. In particular, we discuss header files in Mac OS X and libraries.

5.1. Header Files

There are two types of header files in Mac OS X.

Ordinary header files
These header files are inserted into source code by a preprocessor prior to compilation. Ordinary header files have a .h extension.

Precompiled header files
These header files have a .p extension.

Header files serve four functions:

TIP: The mechanism for enabling strict POSIX.1 compliance is built into the system header files. The preprocessor variables _ANSI_SOURCE, _ _STRICT_ANSI_ _, and _POSIX_SOURCE are supported.

Unix developers will find the ordinary header files familiar, since they follow the BSD convention. The C preprocessor directive #include includes a header file in a C source file. There are essentially three forms of this syntax:

#include <headername.h>
This form is used when the header file is located in the directory /usr/include.

#include <directory/headername.h>
This form is used when the header file is located in the directory /usr/include/directory, where directory is a subdirectory of /usr/include.

#include "headername.h"
This form is used when the header file is located in a user or nonstandard directory. The form should either be in the same directory as the source file you are compiling or in a directory specified by cc's -Idirectory switch.

You can use #include, followed by a macro, which, when expanded, must be in one of the aforementioned forms.

As noted in the previous chapter, frameworks in Mac OS X are common when you step outside of the BSD portions of the operating system. You must use #import instead of #include when working with a framework. To include a framework header file in Objective-C code, use the following format:

#import <frameworkname/headerfilename.h>

where frameworkname is the name of the framework without the extension and headerfilename is the name of the header file. For example, the included declaration for a Cocoa application would look like:

#import <Cocoa/Cocoa.h>

When preprocessing header files or any preprocessor directives, the following three actions are always taken:

The following rules must be kept in mind:

5.1.1. Precompiled Header Files

Mac OS X's Developer Tools support and provide extensive documentation on building and using precompiled header files. This section highlights a few of the issues that may be of interest to Unix developers new to Mac OS X when it comes to working with precompiled headers.

Precompiled header files are binary files that have been generated from ordinary C header files and that have been preprocessed and parsed using cpp-precomp. When such a precompiled header is created, both macros and declarations present in the corresponding ordinary header file are sorted, resulting in a faster compile time, a reduced symbol table size, and consequently, faster lookup. Precompiled header files are given a .p extension and are produced from ordinary header files that end with a .h extension. There is no risk that a precompiled header file will get out of sync with the .h file, because the compiler checks the timestamp of the actual header file.

When using precompiled header files, you should not refer to the .p version of the name, but rather to the .h version in the #include directive. If a precompiled version of the header file is available, it will be used automatically; otherwise, the real header file (.h) will be used. So, to include foo.p, you would specify foo.h. The fact that cc is using a precompiled header is totally hidden from you.

In addition to checking the timestamp, the preprocessor also checks whether or not the current context is the same as the context in which the precompilation was performed. For the precompiled header to be used, the timestamp would need to indicate that the modification time of the .p version is more recent than the .h version, and therefore, that the contexts must be equivalent. The context is the amalgamation of all defines (#define) in place at the time you compile a program. If the defines are different the next time you include the .h file, cpp-precomp will regenerate the .p file based on the current set of defines.

Mac OS X system headers are precompiled. For example, AppKit.p, Cocoa.p, mach.p, and other precompiled header files are stored in /System/Library/Frameworks. You can create your own precompiled header files using the cc -precomp compile driver flag. For example, the following command illustrates this process in its simplest, context-independent form:

cc -precomp header.h -o header.p

If there is context dependence--for example, some conditional compilation--the -Dsymbol flag is used. In this case, the command to build a precompiled header file (with the FOO symbol defined) would be:

cc -precomp -DFOO header.h -o header.p

For more details on building and using precompiled header files, as well as using the cpp-precomp preprocessor, read the documentation stored in /Developer/Documentation/DeveloperTools/Preprocessor/.

WARNING: Although the cpp-precomp and the standard GNU cpp preprocessors are similar in function, there are several incompatibilities. For this reason, you will find it is often necessary to use the -no-cpp-precomp switch when porting Unix-based software to Mac OS X.

A complete list of precompiled headers can be found in the phase1.precompList and phase2.precompList files, located in /System/Library/SystemResources/PrecompLists. Table 5-1 lists the contents of the files.

Table 5-1. Precompiled header files as listed in phase1.precompList and phase2.precompList

Precompiled headers

Filesystem location

phase1.precompList

libc.p

/usr/include

unistd.p

/usr/include

mach.p

/usr/include/mach

phase2.precompList

CoreServices.p

/System/Library/Frameworks/CoreServices.framework/Versions/A/Headers

CoreServices.pp

/System/Library/Frameworks/CoreServices.framework/Versions/A/Headers

ApplicationServices.p

/System/Library/Frameworks/ApplicationServices.framework/Versions/A/Headers

ApplicationServices.pp

/System/Library/Frameworks/ApplicationServices.framework/Versions/A/Headers

Carbon.p

/System/Library/Frameworks/Carbon.framework/Versions/A/Headers

Carbon.pp

/System/Library/Frameworks/Carbon.framework/Versions/A/Headers

Foundation.p

/System/Library/Frameworks/Foundation.framework/Versions/C/Headers

Foundation.pp

/System/Library/Frameworks/Foundation.framework/Versions/C/Headers

AppKit.p

/System/Library/Frameworks/AppKit.framework/Versions/C/Headers

AppKit.pp

/System/Library/Frameworks/AppKit.framework/Versions/C/Headers

Cocoa.p

/System/Library/Frameworks/Cocoa.framework/Versions/A/Headers

Cocoa.pp

/System/Library/Frameworks/Cocoa.framework/Versions/A/Headers

Although the filenames in phase1.precompList and phase2.precompList are listed as filename.p (for example, libc.p), the actual file used depends on the compiler version. For example, gcc3 will use libc-gcc3.p. (Mac OS X 10.2 does not ship with precompiled heaeder files for gcc2.)

TIP: The .pp files referred to in phase2.precompList are not present on the system, but the gcc3 versions can be generated by running sudo fixPrecomps -gcc3all.

5.1.2. malloc.h

make may fail in compiling some types of Unix software if it cannot find malloc.h. Software designed for older Unix systems may expect to find this header file in /usr/include; however, malloc.h is not present in this directory. The set of malloc( ) function prototypes is actually found in stdlib.h. For portability, your programs should include stdlib.h instead of malloc.h. (This is the norm; systems that require you to use malloc.h are the rare exception these days.) GNU autoconf will detect systems that require malloc.h and define the HAVE_MALLOC_H macro. If you do not use GNU autoconf, you will need to detect this case on your own and set the macro accordingly. You can handle such cases with this code:

#include <stdlib.h>
#ifdef HAVE_MALLOC_H
#include <malloc.h>
#endif

For a list of libraries that come with Mac OS X, see Section 5.7, later in this chapter.



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