AmiWest Lesson 2: Fundamentals

Basic Types

It is important to under at least the basic types when programming. The following table summarizes the basic types used in AmigaOS as compared to standard C and C++ types:

Static versus Dynamic Linking

The different between static and dynamic linking can best be explained with an example.

#include <stdio.h>
 
int main()
{
 printf("Hello, world\n");
 return 0;
}

Here is "hello" created using static linking:

gcc -mcrt=clib2 -N -o hello hello.c -Wl,--cref,-M,-Map=hello.map
strip hello

The "hello" executable is roughly 34964 bytes in size. The "hello.map" file contains the linker map which shows you exactly what pieces of code have been pulled in from where to create that executable.

Here is "hello" created using dynamic linking:

gcc -mcrt=newlib -N -o hello hello.c -Wl,--cref,-M,-Map=hello.map
strip hello

The "hello" executable is now 5488 bytes in size and the "hello.map" file is substantially simpler as well.

It is important to remember that each program is still essentially the same size. In fact, the dynamically linked program may even be larger. The reason is that the same amount of code is still used. The difference is that the dynamically linked executable is sharing code with other executables. The statically linked executable is not sharing code and thus occupies more disk space.

A statically linked program is a self-contained unit which generally has no extraneous external dependencies. Any dependency problems will show up when linking the executable.

A dynamically linked program requires external libraries in order to function. If any of those libraries are missing or the wrong version, your program will fail at runtime and not when you compile it.

For programmers, it is very important to know where your libraries are coming from and what their limitations are. Just assuming you can mix and match static and dynamic libraries at will is foolish. Always try to understand what each library does and what caveats apply to its usage.

Libraries and Interfaces

AmigaOS provides hundreds of functions which are split up into different shared libraries. Each shared library is further split up into different interfaces. Much more detailed information about Libraries and Interfaces can be found in Exec Libraries.

struct Interface* open_iface_name(CONST_STRPTR libname, uint32 libver, CONST_STRPTR ifacename)
{
	if ( libname == 0 || ifacename == 0 )  {
		return 0;
	}
 
	struct Interface* iface = try_open_iface_name(libname, libver, ifacename);
 
	if ( iface == 0 )  {
		IDOS->Printf("Can't open %s version %lu interface %s\n", libname, libver, ifacename);
	}
 
	return iface;
}
 
struct Interface* open_iface(CONST_STRPTR libname, uint32 libver)
{
	if ( libname == 0 )  {
		return 0;
	}
 
	return open_iface_name(libname, libver, "main");
}

void close_iface(struct Interface* iface)
{
	if ( iface != 0 )  {
		struct Library* lib = iface->Data.LibBase;
		IExec->DropInterface(iface);
		IExec->CloseLibrary(lib);
	}
}

Shared Objects

Tasks and Processes

Code to display Tasks and Processes.

Synchronization Primitives