Provided by: llvm-3.3_3.3-16ubuntu1_amd64
NAME
opt - LLVM optimizer
SYNOPSIS
opt [options] [filename]
DESCRIPTION
The opt command is the modular LLVM optimizer and analyzer. It takes LLVM source files as input, runs the specified optimizations or analyses on it, and then outputs the optimized file or the analysis results. The function of opt depends on whether the -analyze option is given. When -analyze is specified, opt performs various analyses of the input source. It will usually print the results on standard output, but in a few cases, it will print output to standard error or generate a file with the analysis output, which is usually done when the output is meant for another program. While -analyze is not given, opt attempts to produce an optimized output file. The optimizations available via opt depend upon what libraries were linked into it as well as any additional libraries that have been loaded with the -load option. Use the -help option to determine what optimizations you can use. If filename is omitted from the command line or is "-", opt reads its input from standard input. Inputs can be in either the LLVM assembly language format (.ll) or the LLVM bitcode format (.bc). If an output filename is not specified with the -o option, opt writes its output to the standard output.
OPTIONS
-f Enable binary output on terminals. Normally, opt will refuse to write raw bitcode output if the output stream is a terminal. With this option, opt will write raw bitcode regardless of the output device. -help Print a summary of command line options. -o <filename> Specify the output filename. -S Write output in LLVM intermediate language (instead of bitcode). -{passname} opt provides the ability to run any of LLVM's optimization or analysis passes in any order. The -help option lists all the passes available. The order in which the options occur on the command line are the order in which they are executed (within pass constraints). -std-compile-opts This is short hand for a standard list of compile time optimization passes. This is typically used to optimize the output from the llvm-gcc front end. It might be useful for other front end compilers as well. To discover the full set of options available, use the following command: llvm-as < /dev/null | opt -std-compile-opts -disable-output -debug-pass=Arguments -disable-inlining This option is only meaningful when -std-compile-opts is given. It simply removes the inlining pass from the standard list. -disable-opt This option is only meaningful when -std-compile-opts is given. It disables most, but not all, of the -std-compile-opts. The ones that remain are -verify, -lower-setjmp, and -funcresolve. -strip-debug This option causes opt to strip debug information from the module before applying other optimizations. It is essentially the same as -strip but it ensures that stripping of debug information is done first. -verify-each This option causes opt to add a verify pass after every pass otherwise specified on the command line (including -verify). This is useful for cases where it is suspected that a pass is creating an invalid module but it is not clear which pass is doing it. The combination of -std-compile-opts and -verify-each can quickly track down this kind of problem. -profile-info-file <filename> Specify the name of the file loaded by the -profile-loader option. -stats Print statistics. -time-passes Record the amount of time needed for each pass and print it to standard error. -debug If this is a debug build, this option will enable debug printouts from passes which use the DEBUG() macro. See the LLVM Programmer's Manual, section #DEBUG for more information. -load=<plugin> Load the dynamic object plugin. This object should register new optimization or analysis passes. Once loaded, the object will add new command line options to enable various optimizations or analyses. To see the new complete list of optimizations, use the -help and -load options together. For example: opt -load=plugin.so -help -p Print module after each transformation.
EXIT STATUS
If opt succeeds, it will exit with 0. Otherwise, if an error occurs, it will exit with a non-zero value.
AUTHOR
Maintained by The LLVM Team (http://llvm.org/).
COPYRIGHT
2003-2013, LLVM Project