LLVM: gccld tool
NAME
gccld
SYNOPSIS
gccld [options] < filename> [ filename ...]
DESCRIPTION
The gccld utility takes a set of LLVM bytecode files and links them together
into a single LLVM bytecode file. The output bytecode file can be another
bytecode library or an executable bytecode program. Using additional options,
gccld is able to produce native code executables.
The gccld utility is primarily used by the GCC front end, and as such, attempts
to mimic the interface provided by the default system linker so that it can act
as a "drop-in" replacement.
Search Order
When looking for objects specified on the command line, gccld will search for
the object first in the current directory and then in the directory specified
by LLVM_LIB_SEARCH_PATH. If it cannot find the object, it fails.
When looking for a library specified with the -l option, gccld first attempts
to load a file with that name from the current directory. If that fails, it
looks for lib<library>.bc, lib<library>.a, or
lib<library>.so, in that order, in each directory added to the library
search path with the -L option. These directories are searched in order they
were specified. If the library cannot be located, then gccld looks in the
directory specified by the LLVM_LIB_SEARCH_PATH environment variable. If it
does not find lib<library>.[bc | a | so] there, it fails.
The -L option is global. It does not matter where it is specified in the list
of command line arguments; the directory is simply added to the search path and
is applied to all libraries, preceding or succeeding, in the command line.
Link order
All object files are linked first in the order they were specified on the
command line. All library files are linked next. Some libraries may not be
linked into the object program; see below.
Library Linkage
Object files and static bytecode objects are always linked into the output
file. Library archives (.a files) load only the objects within the archive
that define symbols needed by the output file. Hence, libraries should be
listed after the object files and libraries which need them; otherwise, the
library may not be linked in, and the dependent library will not have its
undefined symbols defined.
Native code generation
The gccld program has limited support for native code generation.
OPTIONS
- -help
Print a summary of command line options.
- -o <filename>
Specify the output filename which will hold the linked bytecode.
- -stats
Print statistics.
- -time-passes
Record the amount of time needed for each pass and print it to standard
error.
- -verify
Verify each pass result.
- -L=<directory>
Add directory to the list of directories to search when looking for
libraries.
- -disable-internalize
Do not mark all symbols as internal.
- -internalize-public-api-file <filename>
Preserve the list of symbol names in the file filename.
- -internalize-public-api-list <list>
Preserve the symbol names in list.
- -l=<library>
Specify libraries to include when linking the output file. When linking,
gccld will first attempt to load a file with the pathname library. If that
fails, it will then attempt to load lib<library>.bc,
lib<library>.a, and lib<library>.so, in that order.
- -link-as-library
Link the .bc files together as a library, not an executable.
- -native
Generate a native, machine code executable.
When generating native executables, gccld first checks for a bytecode version
of the library and links it in, if necessary. If the library is missing,
gccld skips it. Then, gccld links in the same libraries as native code.
In this way, gccld should be able to link in optimized bytecode subsets of
common libraries and then link in any part of the library that hasn't been
converted to bytecode.
- -s
Strip symbol information from the generated executable.
- -v
Print information about actions taken.
EXIT STATUS
If gccld succeeds, it will exit with 0. Otherwise, if an error occurs, it
will exit with a non-zero value.
SEE ALSO
gccas
BUGS
The -L option cannot be used for find native code libraries when using the
-native option.
LLVM Team