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15.21.6 Macros Controlling Initialization Routines
Here are the macros that control how the compiler handles initialization and termination functions:
If defined, a C string constant, including spacing, for the assembler operation to identify the following data as initialization code. If not defined, GCC will assume such a section does not exist. When you are using special sections for initialization and termination functions, this macro also controls how crtstuff.c and libgcc2.c arrange to run the initialization functions.
If defined,
main
will not call__main
as described above. This macro should be defined for systems that control start-up code on a symbol-by-symbol basis, such as OSF/1, and should not be defined explicitly for systems that supportINIT_SECTION_ASM_OP
.
If defined, a C string constant for a switch that tells the linker that the following symbol is an initialization routine.
If defined, a C string constant for a switch that tells the linker that the following symbol is a finalization routine.
If defined, a C statement that will write a function that can be automatically called when a shared library is loaded. The function should call func, which takes no arguments. If not defined, and the object format requires an explicit initialization function, then a function called
_GLOBAL__DI
will be generated.This function and the following one are used by collect2 when linking a shared library that needs constructors or destructors, or has DWARF2 exception tables embedded in the code.
If defined, a C statement that will write a function that can be automatically called when a shared library is unloaded. The function should call func, which takes no arguments. If not defined, and the object format requires an explicit finalization function, then a function called
_GLOBAL__DD
will be generated.
If defined,
main
will call__main
despite the presence ofINIT_SECTION_ASM_OP
. This macro should be defined for systems where the init section is not actually run automatically, but is still useful for collecting the lists of constructors and destructors.
If nonzero, the C++
init_priority
attribute is supported and the compiler should emit instructions to control the order of initialization of objects. If zero, the compiler will issue an error message upon encountering aninit_priority
attribute.
This value is true if the target supports some “native” method of collecting constructors and destructors to be run at startup and exit. It is false if we must use collect2.
If defined, a function that outputs assembler code to arrange to call the function referenced by symbol at initialization time.
Assume that symbol is a
SYMBOL_REF
for a function taking no arguments and with no return value. If the target supports initialization priorities, priority is a value between 0 andMAX_INIT_PRIORITY
; otherwise it must beDEFAULT_INIT_PRIORITY
.If this macro is not defined by the target, a suitable default will be chosen if (1) the target supports arbitrary section names, (2) the target defines
CTORS_SECTION_ASM_OP
, or (3)USE_COLLECT2
is not defined.
This is like
TARGET_ASM_CONSTRUCTOR
but used for termination functions rather than initialization functions.
If TARGET_HAVE_CTORS_DTORS
is true, the initialization routine
generated for the generated object file will have static linkage.
If your system uses collect2 as the means of processing constructors, then that program normally uses nm to scan an object file for constructor functions to be called.
On certain kinds of systems, you can define this macro to make collect2 work faster (and, in some cases, make it work at all):
Define this macro if the system uses COFF (Common Object File Format) object files, so that collect2 can assume this format and scan object files directly for dynamic constructor/destructor functions.
This macro is effective only in a native compiler; collect2 as part of a cross compiler always uses nm for the target machine.
Define this macro as a C string constant containing the file name to use to execute nm. The default is to search the path normally for nm.
If your system supports shared libraries and has a program to list the dynamic dependencies of a given library or executable, you can define these macros to enable support for running initialization and termination functions in shared libraries:
Define this macro to a C string constant containing the name of the program which lists dynamic dependencies, like "ldd" under SunOS 4.
Define this macro to be C code that extracts filenames from the output of the program denoted by
LDD_SUFFIX
. ptr is a variable of typechar *
that points to the beginning of a line of output fromLDD_SUFFIX
. If the line lists a dynamic dependency, the code must advance ptr to the beginning of the filename on that line. Otherwise, it must set ptr toNULL
.