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      1 =pod
      2 
      3 =head1 NAME
      4 
      5 bugpoint - automatic test case reduction tool
      6 
      7 =head1 SYNOPSIS
      8 
      9 B<bugpoint> [I<options>] [I<input LLVM ll/bc files>] [I<LLVM passes>] B<--args>
     10 I<program arguments>
     11 
     12 =head1 DESCRIPTION
     13 
     14 B<bugpoint> narrows down the source of problems in LLVM tools and passes.  It
     15 can be used to debug three types of failures: optimizer crashes, miscompilations
     16 by optimizers, or bad native code generation (including problems in the static
     17 and JIT compilers).  It aims to reduce large test cases to small, useful ones.
     18 For more information on the design and inner workings of B<bugpoint>, as well as
     19 advice for using bugpoint, see F<llvm/docs/Bugpoint.html> in the LLVM
     20 distribution.
     21 
     22 =head1 OPTIONS
     23 
     24 =over
     25 
     26 =item B<--additional-so> F<library>
     27 
     28 Load the dynamic shared object F<library> into the test program whenever it is
     29 run.  This is useful if you are debugging programs which depend on non-LLVM
     30 libraries (such as the X or curses libraries) to run.
     31 
     32 =item B<--append-exit-code>=I<{true,false}>
     33 
     34 Append the test programs exit code to the output file so that a change in exit
     35 code is considered a test failure. Defaults to false.
     36 
     37 =item B<--args> I<program args>
     38 
     39 Pass all arguments specified after -args to the test program whenever it runs.
     40 Note that if any of the I<program args> start with a '-', you should use:
     41 
     42     bugpoint [bugpoint args] --args -- [program args]
     43 
     44 The "--" right after the B<--args> option tells B<bugpoint> to consider any
     45 options starting with C<-> to be part of the B<--args> option, not as options to
     46 B<bugpoint> itself.
     47 
     48 =item B<--tool-args> I<tool args>
     49 
     50 Pass all arguments specified after --tool-args to the LLVM tool under test
     51 (B<llc>, B<lli>, etc.) whenever it runs.  You should use this option in the
     52 following way:
     53 
     54     bugpoint [bugpoint args] --tool-args -- [tool args]
     55 
     56 The "--" right after the B<--tool-args> option tells B<bugpoint> to consider any
     57 options starting with C<-> to be part of the B<--tool-args> option, not as
     58 options to B<bugpoint> itself. (See B<--args>, above.)
     59 
     60 =item B<--safe-tool-args> I<tool args>
     61 
     62 Pass all arguments specified after B<--safe-tool-args> to the "safe" execution
     63 tool.
     64 
     65 =item B<--gcc-tool-args> I<gcc tool args>
     66 
     67 Pass all arguments specified after B<--gcc-tool-args> to the invocation of
     68 B<gcc>.
     69 
     70 =item B<--opt-args> I<opt args>
     71 
     72 Pass all arguments specified after B<--opt-args> to the invocation of B<opt>.
     73 
     74 =item B<--disable-{dce,simplifycfg}>
     75 
     76 Do not run the specified passes to clean up and reduce the size of the test
     77 program. By default, B<bugpoint> uses these passes internally when attempting to
     78 reduce test programs.  If you're trying to find a bug in one of these passes,
     79 B<bugpoint> may crash.
     80 
     81 =item B<--enable-valgrind>
     82 
     83 Use valgrind to find faults in the optimization phase. This will allow
     84 bugpoint to find otherwise asymptomatic problems caused by memory
     85 mis-management.
     86 
     87 =item B<-find-bugs>
     88 
     89 Continually randomize the specified passes and run them on the test program
     90 until a bug is found or the user kills B<bugpoint>.
     91 
     92 =item B<-help>
     93 
     94 Print a summary of command line options.
     95 
     96 =item B<--input> F<filename>
     97 
     98 Open F<filename> and redirect the standard input of the test program, whenever
     99 it runs, to come from that file.
    100 
    101 =item B<--load> F<plugin>
    102 
    103 Load the dynamic object F<plugin> into B<bugpoint> itself.  This object should
    104 register new optimization passes.  Once loaded, the object will add new command
    105 line options to enable various optimizations.  To see the new complete list of
    106 optimizations, use the B<-help> and B<--load> options together; for example:
    107 
    108     bugpoint --load myNewPass.so -help
    109 
    110 =item B<--mlimit> F<megabytes>
    111 
    112 Specifies an upper limit on memory usage of the optimization and codegen. Set
    113 to zero to disable the limit.
    114 
    115 =item B<--output> F<filename>
    116 
    117 Whenever the test program produces output on its standard output stream, it
    118 should match the contents of F<filename> (the "reference output"). If you
    119 do not use this option, B<bugpoint> will attempt to generate a reference output
    120 by compiling the program with the "safe" backend and running it.
    121 
    122 =item B<--profile-info-file> F<filename>
    123 
    124 Profile file loaded by B<--profile-loader>.
    125 
    126 =item B<--run-{int,jit,llc,cbe,custom}>
    127 
    128 Whenever the test program is compiled, B<bugpoint> should generate code for it
    129 using the specified code generator.  These options allow you to choose the
    130 interpreter, the JIT compiler, the static native code compiler, the C
    131 backend, or a custom command (see B<--exec-command>) respectively.
    132 
    133 =item B<--safe-{llc,cbe,custom}>
    134 
    135 When debugging a code generator, B<bugpoint> should use the specified code
    136 generator as the "safe" code generator. This is a known-good code generator
    137 used to generate the "reference output" if it has not been provided, and to
    138 compile portions of the program that as they are excluded from the testcase.
    139 These options allow you to choose the
    140 static native code compiler, the C backend, or a custom command,
    141 (see B<--exec-command>) respectively. The interpreter and the JIT backends
    142 cannot currently be used as the "safe" backends.
    143 
    144 =item B<--exec-command> I<command>
    145 
    146 This option defines the command to use with the B<--run-custom> and
    147 B<--safe-custom> options to execute the bitcode testcase. This can
    148 be useful for cross-compilation.
    149 
    150 =item B<--compile-command> I<command>
    151 
    152 This option defines the command to use with the B<--compile-custom>
    153 option to compile the bitcode testcase. This can be useful for
    154 testing compiler output without running any link or execute stages. To
    155 generate a reduced unit test, you may add CHECK directives to the
    156 testcase and pass the name of an executable compile-command script in this form:
    157 
    158     #!/bin/sh
    159     llc "$@"
    160     not FileCheck [bugpoint input file].ll < bugpoint-test-program.s
    161 
    162 This script will "fail" as long as FileCheck passes. So the result
    163 will be the minimum bitcode that passes FileCheck.
    164 
    165 =item B<--safe-path> I<path>
    166 
    167 This option defines the path to the command to execute with the
    168 B<--safe-{int,jit,llc,cbe,custom}>
    169 option.
    170 
    171 =back
    172 
    173 =head1 EXIT STATUS
    174 
    175 If B<bugpoint> succeeds in finding a problem, it will exit with 0.  Otherwise,
    176 if an error occurs, it will exit with a non-zero value.
    177 
    178 =head1 SEE ALSO
    179 
    180 L<opt|opt>
    181 
    182 =head1 AUTHOR
    183 
    184 Maintained by the LLVM Team (L<http://llvm.org/>).
    185 
    186 =cut
    187