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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@130047 91177308-0d34-0410-b5e6-96231b3b80d8
187 lines
6.1 KiB
Plaintext
187 lines
6.1 KiB
Plaintext
=pod
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=head1 NAME
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bugpoint - automatic test case reduction tool
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=head1 SYNOPSIS
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B<bugpoint> [I<options>] [I<input LLVM ll/bc files>] [I<LLVM passes>] B<--args>
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I<program arguments>
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=head1 DESCRIPTION
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B<bugpoint> narrows down the source of problems in LLVM tools and passes. It
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can be used to debug three types of failures: optimizer crashes, miscompilations
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by optimizers, or bad native code generation (including problems in the static
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and JIT compilers). It aims to reduce large test cases to small, useful ones.
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For more information on the design and inner workings of B<bugpoint>, as well as
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advice for using bugpoint, see F<llvm/docs/Bugpoint.html> in the LLVM
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distribution.
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=head1 OPTIONS
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=over
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=item B<--additional-so> F<library>
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Load the dynamic shared object F<library> into the test program whenever it is
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run. This is useful if you are debugging programs which depend on non-LLVM
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libraries (such as the X or curses libraries) to run.
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=item B<--append-exit-code>=I<{true,false}>
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Append the test programs exit code to the output file so that a change in exit
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code is considered a test failure. Defaults to false.
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=item B<--args> I<program args>
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Pass all arguments specified after -args to the test program whenever it runs.
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Note that if any of the I<program args> start with a '-', you should use:
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bugpoint [bugpoint args] --args -- [program args]
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The "--" right after the B<--args> option tells B<bugpoint> to consider any
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options starting with C<-> to be part of the B<--args> option, not as options to
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B<bugpoint> itself.
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=item B<--tool-args> I<tool args>
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Pass all arguments specified after --tool-args to the LLVM tool under test
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(B<llc>, B<lli>, etc.) whenever it runs. You should use this option in the
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following way:
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bugpoint [bugpoint args] --tool-args -- [tool args]
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The "--" right after the B<--tool-args> option tells B<bugpoint> to consider any
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options starting with C<-> to be part of the B<--tool-args> option, not as
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options to B<bugpoint> itself. (See B<--args>, above.)
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=item B<--safe-tool-args> I<tool args>
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Pass all arguments specified after B<--safe-tool-args> to the "safe" execution
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tool.
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=item B<--gcc-tool-args> I<gcc tool args>
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Pass all arguments specified after B<--gcc-tool-args> to the invocation of
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B<gcc>.
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=item B<--opt-args> I<opt args>
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Pass all arguments specified after B<--opt-args> to the invocation of B<opt>.
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=item B<--disable-{dce,simplifycfg}>
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Do not run the specified passes to clean up and reduce the size of the test
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program. By default, B<bugpoint> uses these passes internally when attempting to
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reduce test programs. If you're trying to find a bug in one of these passes,
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B<bugpoint> may crash.
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=item B<--enable-valgrind>
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Use valgrind to find faults in the optimization phase. This will allow
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bugpoint to find otherwise asymptomatic problems caused by memory
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mis-management.
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=item B<-find-bugs>
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Continually randomize the specified passes and run them on the test program
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until a bug is found or the user kills B<bugpoint>.
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=item B<-help>
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Print a summary of command line options.
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=item B<--input> F<filename>
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Open F<filename> and redirect the standard input of the test program, whenever
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it runs, to come from that file.
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=item B<--load> F<plugin>
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Load the dynamic object F<plugin> into B<bugpoint> itself. This object should
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register new optimization passes. Once loaded, the object will add new command
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line options to enable various optimizations. To see the new complete list of
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optimizations, use the B<-help> and B<--load> options together; for example:
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bugpoint --load myNewPass.so -help
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=item B<--mlimit> F<megabytes>
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Specifies an upper limit on memory usage of the optimization and codegen. Set
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to zero to disable the limit.
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=item B<--output> F<filename>
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Whenever the test program produces output on its standard output stream, it
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should match the contents of F<filename> (the "reference output"). If you
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do not use this option, B<bugpoint> will attempt to generate a reference output
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by compiling the program with the "safe" backend and running it.
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=item B<--profile-info-file> F<filename>
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Profile file loaded by B<--profile-loader>.
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=item B<--run-{int,jit,llc,cbe,custom}>
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Whenever the test program is compiled, B<bugpoint> should generate code for it
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using the specified code generator. These options allow you to choose the
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interpreter, the JIT compiler, the static native code compiler, the C
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backend, or a custom command (see B<--exec-command>) respectively.
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=item B<--safe-{llc,cbe,custom}>
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When debugging a code generator, B<bugpoint> should use the specified code
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generator as the "safe" code generator. This is a known-good code generator
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used to generate the "reference output" if it has not been provided, and to
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compile portions of the program that as they are excluded from the testcase.
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These options allow you to choose the
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static native code compiler, the C backend, or a custom command,
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(see B<--exec-command>) respectively. The interpreter and the JIT backends
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cannot currently be used as the "safe" backends.
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=item B<--exec-command> I<command>
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This option defines the command to use with the B<--run-custom> and
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B<--safe-custom> options to execute the bitcode testcase. This can
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be useful for cross-compilation.
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=item B<--compile-command> I<command>
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This option defines the command to use with the B<--compile-custom>
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option to compile the bitcode testcase. This can be useful for
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testing compiler output without running any link or execute stages. To
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generate a reduced unit test, you may add CHECK directives to the
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testcase and pass the name of an executable compile-command script in this form:
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#!/bin/sh
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llc "$@"
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not FileCheck [bugpoint input file].ll < bugpoint-test-program.s
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This script will "fail" as long as FileCheck passes. So the result
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will be the minimum bitcode that passes FileCheck.
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=item B<--safe-path> I<path>
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This option defines the path to the command to execute with the
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B<--safe-{int,jit,llc,cbe,custom}>
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option.
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=back
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=head1 EXIT STATUS
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If B<bugpoint> succeeds in finding a problem, it will exit with 0. Otherwise,
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if an error occurs, it will exit with a non-zero value.
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=head1 SEE ALSO
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L<opt|opt>
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=head1 AUTHOR
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Maintained by the LLVM Team (L<http://llvm.org/>).
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=cut
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