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488 lines
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Plaintext
488 lines
20 KiB
Plaintext
Copyright 1994, 1995, 1996, 1999, 2000, 2001, 2002 Free Software
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Foundation, Inc.
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This file is free documentation; the Free Software Foundation gives
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unlimited permission to copy, distribute and modify it.
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Perftools-Specific Install Notes
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================================
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See generic autotool-provided installation notes at the
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end. Immediately below you can see gperftools-specific details.
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*** Building from source repository
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As of 2.1 gperftools does not have configure and other autotools
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products checked into it's source repository. This is common practice
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for projects using autotools.
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NOTE: Source releases (.tar.gz that you download from
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https://github.com/gperftools/gperftools/releases) still have all
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required files just as before. Nothing has changed w.r.t. building
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from .tar.gz releases.
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But, in order to build gperftools checked out from subversion
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repository you need to have autoconf, automake and libtool
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installed. And before running ./configure you have to generate it (and
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a bunch of other files) by running ./autogen.sh script. That script
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will take care of calling correct autotools programs in correct order.
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If you're maintainer then it's business as usual too. Just run make
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dist (or, preferably, make distcheck) and it'll produce .tar.gz or
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.tar.bz2 with all autotools magic already included. So that users can
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build our software without having autotools.
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*** Stacktrace capturing details
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A number of gperftools facilities capture stack traces. And
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occasionally this happens in 'tricky' locations, like in SIGPROF
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handler. So some platforms and library versions occasionally cause
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troubles (crashes or hangs, or truncated stack traces).
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So we do provide several implementations that our users are able to
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select at runtime. Pass TCMALLOC_STACKTRACE_METHOD_VERBOSE=t as
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environment variable to ./stacktrace_unittest to see options.
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* frame-pointer-based stacktracing is fully supported on x86 (all 3
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kinds: i386, x32 and x86-64 are suppored), aarch64 and riscv. But
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all modern architectures and ABIs by default build code without
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frame pointers (even on i386). So in order to get anything useful
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out of this option, you need to build your code with frame
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pointers. It adds some performance overhead (usually people quote
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order of 2%-3%, but it can really vary based on workloads). Also it
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is worth mentioning, that it is fairly common for various asm
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routines not to have frame pointers, so you'll have somewhat
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imperfect profiles out of typical asm bits like memcpy. This stack
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trace capuring method is also fastest (like 2-3 orders of magnitude
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faster), which will matter when stacktrace capturing is done a lot
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(e.g. heap profiler).
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* libgcc-based stacktracing works particularly great on modern
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GNU/Linux systems with glibc 2.34 or later and libgcc from gcc 12 or
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later. Thanks to usage of dl_find_object API introduced in recent
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glibc-s this implementation seems to be truly async-signal safe and
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it is reasonably fast too. On Linux and other ELF platforms it uses
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eh_frame facility (which is very similar to dwarf unwind info). It
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was originally introduced for exception handling. On most modern
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platforms this unwind info is automatically added by compilers. On
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others you might need to add -fexceptions and/or
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-fasynchrnous-unwind-tables to your compiler flags. To make this
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option default, pass --enable-libgcc-unwinder-by-default to
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configure. When used without dl_find_object it will occasionally
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deadlock especially when used in cpuprofiler.
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* libunwind is another supported mechanism and is default when
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available. It also depends on eh_frame stuff (or dwarf or some
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arm-specific thingy when available). When using it, be sure to use
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latest available libunwind version. As with libgcc some people
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occasionally had trouble with it on codes with broken or missing
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unwind info. If you encounter something like that, first make sure
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to file tickets against your compiler vender. Second, libunwind has
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configure option to check accesses more thoroughly, so consider
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that.
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* many systems provide backtrace() function either as part of their
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libc or in -lexecinfo. On most systems, including GNU/Linux, it is
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not built by default, so pass --enable-stacktrace-via-backtrace to
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configure to enable it. Occasionally this implementation will call
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malloc when capturing backtrace, but we should automagically handle
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it via our "emergency malloc" facility which is now built by default
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on most systems (but it currently doesn't handle being used by
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cpuprofiler).
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*** TCMALLOC LARGE PAGES: TRADING TIME FOR SPACE
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You can set a compiler directive that makes tcmalloc faster, at the
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cost of using more space (due to internal fragmentation).
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Internally, tcmalloc divides its memory into "pages." The default
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page size is chosen to minimize memory use by reducing fragmentation.
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The cost is that keeping track of these pages can cost tcmalloc time.
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We've added a new flag to tcmalloc that enables a larger page size.
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In general, this will increase the memory needs of applications using
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tcmalloc. However, in many cases it will speed up the applications
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as well, particularly if they allocate and free a lot of memory. We've
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seen average speedups of 3-5% on Google applications.
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To build libtcmalloc with large pages you need to use the
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--with-tcmalloc-pagesize=ARG configure flag, e.g.:
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./configure <other flags> --with-tcmalloc-pagesize=32
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The ARG argument can be 4, 8, 16, 32, 64, 128 or 256 which sets the
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internal page size to 4K, 8K, 16K, 32K, 64K, 128K and 256K respectively.
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The default is 8K.
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*** SMALL TCMALLOC CACHES: TRADING SPACE FOR TIME
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You can set a compiler directive that makes tcmalloc use less memory
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for overhead, at the cost of some time.
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Internally, tcmalloc keeps information about some of its internal data
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structures in a cache. This speeds memory operations that need to
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access this internal data. We've added a new, experimental flag to
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tcmalloc that reduces the size of this cache, decresaing the memory
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needs of applications using tcmalloc.
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This feature is still very experimental; it's not even a configure
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flag yet. To build libtcmalloc with smaller internal caches, run
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./configure <normal flags> CXXFLAGS=-DTCMALLOC_SMALL_BUT_SLOW
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(or add -DTCMALLOC_SMALL_BUT_SLOW to your existing CXXFLAGS argument).
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*** TCMALLOC AND DLOPEN
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To improve performance, we use the "initial exec" model of Thread
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Local Storage in tcmalloc. The price for this is the library will not
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work correctly if it is loaded via dlopen(). This should not be a
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problem, since loading a malloc-replacement library via dlopen is
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asking for trouble in any case: some data will be allocated with one
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malloc, some with another.
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*** COMPILING ON NON-LINUX SYSTEMS
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We regularly build and test on typical modern GNU/Linux systems. You
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should expect all tests to pass on modern Linux distros and x86,
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aarch64 and riscv machines. Other machine types may fail some tests,
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but you should expect at least malloc to be fully functional.
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Perftools has been tested on the following non-Linux systems:
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Various recent versions of FreeBSD (x86-64 mostly)
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Recent version of NetBSD (x86-64)
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Recent versions of OSX (aarch64, x86 and ppc hasn't been tested for some time)
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Solaris 10 (x86_64), but not recently
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Windows using both MSVC (starting from MSVC 2015 and later) and mingw toolchains
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Windows XP and other obsolete versions have not been tested recently
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Windows XP, Cygwin 5.1 (x86), but not recently
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Portions of gperftools work on those other systems. The basic
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memory-allocation library, tcmalloc_minimal, works on all systems.
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The cpu-profiler also works fairly widely. However, the heap-profiler
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and heap-checker are not yet as widely supported. Heap checker is now
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deprecated. In general, the 'configure' script will detect what OS you
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are building for, and only build the components that work on that OS.
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Note that tcmalloc_minimal is perfectly usable as a malloc/new
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replacement, so it is possible to use tcmalloc on all the systems
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above, by linking in libtcmalloc_minimal.
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** Solaris 10 x86: (note, this is fairly old)
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I've only tested using the GNU C++ compiler, not the Sun C++
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compiler. Using g++ requires setting the PATH appropriately when
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configuring.
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% PATH=${PATH}:/usr/sfw/bin/:/usr/ccs/bin ./configure
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% PATH=${PATH}:/usr/sfw/bin/:/usr/ccs/bin make [...]
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Again, the binaries and libraries that successfully build are
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exactly the same as for FreeBSD. (However, while libprofiler.so can
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be used to generate profiles, pprof is not very successful at
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reading them -- necessary helper programs like nm don't seem
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to be installed by default on Solaris, or perhaps are only
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installed as part of the Sun C++ compiler package.) See that
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section for a list of binaries, and instructions on building them.
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** Windows (MSVC, Cygwin, and MinGW):
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Work on Windows is rather preliminary: only tcmalloc_minimal is
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supported.
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This Windows functionality is also available using MinGW and Msys,
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In this case, you can use the regular './configure && make'
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process. 'make install' should also work. The Makefile will limit
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itself to those libraries and binaries that work on windows.
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** AIX (as of 2021)
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I've tested using the IBM XL and IBM Open XL Compilers. The
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minimum requirement for IBM XL is V16 which includes C++11
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support. IBM XL and gcc are not ABI compatible. If you would
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like to use the library with a gcc built executable then the
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library must also be built with gcc. To use the library with
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and IBM XL built binary then it follows that the library must
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also be built with IBM XL.
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Both 32-bit and 64-bit builds have been tested.
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To do a 32-bit IBM XL build:
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% ./configure CC="xlclang" CXX="xlclang++" AR="ar"
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RANLIB="ranlib" NM="nm"
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To do a 64-bit IBM XL build:
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% ./configure CC="xlclang -q64" CXX="xlclang++ -q64"
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AR="ar -X64" RANLIB="ranlib -X64" NM="nm -X64"
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Add your favorite optimization levels via CFLAGS and CXXFLAGS.
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If you link to the shared library but it may not work as you
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expect. Allocations and deallocations that occur from within
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the Standard C and C++ libraries will not be redirected the
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tcmalloc library.
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The recommended method is to use the AIX User-defined malloc
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replacement as documented by IBM. This replaces the default
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AIX memory subsystem with a user defined memory subsystem.
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The AIX user defined memory subsystem specifies that the 32-
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and 64- bit objects must be placed in an archive with the
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32-bit shared object named mem32.o and the 64-bit shared
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object named mem64.o.
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It is recommended to make combined 32_64 bit archive by
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doing a 64-bit build, then copy the shared library to mem64.o
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add mem64.o the archive, then do a 32-bit build
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copy the shared library to mem32.o and add it to the same
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combined archive.
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For eg) perform a 64-bit build then:
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% cp libtcmalloc_minimal.so.4 mem64.o
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% ar -X32_64 -r libtmalloc_minimal.a mem64.o
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Followed by a 32-bit build:
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% cp libtcmalloc_minimal.so.4 mem32.o
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% ar -X32_64 -r libtmalloc_minimal.a mem32.o
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The final archive should contain both mem32.o and mem64.o
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To use the library you are expected have the library location
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in your LIBPATH or LD_LIBRARY_PATH followed by exporting the
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environment variable MALLOCTYPE=user:libtcmalloc_minimal.a to
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enable the new user defined memory subsystem.
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I recommend using:
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% MALLOCTYPE=user:libtcmalloc_minimal.a <user-exectuable>
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to minimize the impact of replacing the memory subsystem. Once
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the subsystem is replaced it is used for all commands issued from
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the terminal.
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Basic Installation
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==================
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These are generic installation instructions.
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The `configure' shell script attempts to guess correct values for
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various system-dependent variables used during compilation. It uses
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those values to create a `Makefile' in each directory of the package.
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It may also create one or more `.h' files containing system-dependent
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definitions. Finally, it creates a shell script `config.status' that
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you can run in the future to recreate the current configuration, and a
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file `config.log' containing compiler output (useful mainly for
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debugging `configure').
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It can also use an optional file (typically called `config.cache'
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and enabled with `--cache-file=config.cache' or simply `-C') that saves
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the results of its tests to speed up reconfiguring. (Caching is
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disabled by default to prevent problems with accidental use of stale
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cache files.)
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If you need to do unusual things to compile the package, please try
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to figure out how `configure' could check whether to do them, and mail
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diffs or instructions to the address given in the `README' so they can
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be considered for the next release. If you are using the cache, and at
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some point `config.cache' contains results you don't want to keep, you
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may remove or edit it.
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The file `configure.ac' (or `configure.in') is used to create
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`configure' by a program called `autoconf'. You only need
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`configure.ac' if you want to change it or regenerate `configure' using
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a newer version of `autoconf'.
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The simplest way to compile this package is:
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1. `cd' to the directory containing the package's source code and type
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`./configure' to configure the package for your system. If you're
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using `csh' on an old version of System V, you might need to type
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`sh ./configure' instead to prevent `csh' from trying to execute
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`configure' itself.
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Running `configure' takes awhile. While running, it prints some
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messages telling which features it is checking for.
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2. Type `make' to compile the package.
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3. Optionally, type `make check' to run any self-tests that come with
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the package.
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4. Type `make install' to install the programs and any data files and
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documentation.
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5. You can remove the program binaries and object files from the
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source code directory by typing `make clean'. To also remove the
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files that `configure' created (so you can compile the package for
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a different kind of computer), type `make distclean'. There is
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also a `make maintainer-clean' target, but that is intended mainly
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for the package's developers. If you use it, you may have to get
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all sorts of other programs in order to regenerate files that came
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with the distribution.
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Compilers and Options
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=====================
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Some systems require unusual options for compilation or linking that
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the `configure' script does not know about. Run `./configure --help'
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for details on some of the pertinent environment variables.
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You can give `configure' initial values for configuration parameters
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by setting variables in the command line or in the environment. Here
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is an example:
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./configure CC=c89 CFLAGS=-O2 LIBS=-lposix
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*Note Defining Variables::, for more details.
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Compiling For Multiple Architectures
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====================================
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You can compile the package for more than one kind of computer at the
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same time, by placing the object files for each architecture in their
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own directory. To do this, you must use a version of `make' that
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supports the `VPATH' variable, such as GNU `make'. `cd' to the
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directory where you want the object files and executables to go and run
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the `configure' script. `configure' automatically checks for the
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source code in the directory that `configure' is in and in `..'.
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If you have to use a `make' that does not support the `VPATH'
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variable, you have to compile the package for one architecture at a
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time in the source code directory. After you have installed the
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package for one architecture, use `make distclean' before reconfiguring
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for another architecture.
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Installation Names
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==================
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By default, `make install' will install the package's files in
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`/usr/local/bin', `/usr/local/man', etc. You can specify an
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installation prefix other than `/usr/local' by giving `configure' the
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option `--prefix=PATH'.
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You can specify separate installation prefixes for
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architecture-specific files and architecture-independent files. If you
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give `configure' the option `--exec-prefix=PATH', the package will use
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PATH as the prefix for installing programs and libraries.
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Documentation and other data files will still use the regular prefix.
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In addition, if you use an unusual directory layout you can give
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options like `--bindir=PATH' to specify different values for particular
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kinds of files. Run `configure --help' for a list of the directories
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you can set and what kinds of files go in them.
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If the package supports it, you can cause programs to be installed
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with an extra prefix or suffix on their names by giving `configure' the
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option `--program-prefix=PREFIX' or `--program-suffix=SUFFIX'.
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Optional Features
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=================
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Some packages pay attention to `--enable-FEATURE' options to
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`configure', where FEATURE indicates an optional part of the package.
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They may also pay attention to `--with-PACKAGE' options, where PACKAGE
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is something like `gnu-as' or `x' (for the X Window System). The
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`README' should mention any `--enable-' and `--with-' options that the
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package recognizes.
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For packages that use the X Window System, `configure' can usually
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find the X include and library files automatically, but if it doesn't,
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you can use the `configure' options `--x-includes=DIR' and
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`--x-libraries=DIR' to specify their locations.
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Specifying the System Type
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==========================
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There may be some features `configure' cannot figure out
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automatically, but needs to determine by the type of machine the package
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will run on. Usually, assuming the package is built to be run on the
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_same_ architectures, `configure' can figure that out, but if it prints
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a message saying it cannot guess the machine type, give it the
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`--build=TYPE' option. TYPE can either be a short name for the system
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type, such as `sun4', or a canonical name which has the form:
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CPU-COMPANY-SYSTEM
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where SYSTEM can have one of these forms:
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OS KERNEL-OS
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See the file `config.sub' for the possible values of each field. If
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`config.sub' isn't included in this package, then this package doesn't
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need to know the machine type.
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If you are _building_ compiler tools for cross-compiling, you should
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use the `--target=TYPE' option to select the type of system they will
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produce code for.
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If you want to _use_ a cross compiler, that generates code for a
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platform different from the build platform, you should specify the
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"host" platform (i.e., that on which the generated programs will
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eventually be run) with `--host=TYPE'.
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Sharing Defaults
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================
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If you want to set default values for `configure' scripts to share,
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you can create a site shell script called `config.site' that gives
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default values for variables like `CC', `cache_file', and `prefix'.
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`configure' looks for `PREFIX/share/config.site' if it exists, then
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`PREFIX/etc/config.site' if it exists. Or, you can set the
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`CONFIG_SITE' environment variable to the location of the site script.
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A warning: not all `configure' scripts look for a site script.
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Defining Variables
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==================
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Variables not defined in a site shell script can be set in the
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environment passed to `configure'. However, some packages may run
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configure again during the build, and the customized values of these
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variables may be lost. In order to avoid this problem, you should set
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them in the `configure' command line, using `VAR=value'. For example:
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./configure CC=/usr/local2/bin/gcc
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will cause the specified gcc to be used as the C compiler (unless it is
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overridden in the site shell script).
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`configure' Invocation
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======================
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`configure' recognizes the following options to control how it
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operates.
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`--help'
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`-h'
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Print a summary of the options to `configure', and exit.
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`--version'
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`-V'
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Print the version of Autoconf used to generate the `configure'
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script, and exit.
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`--cache-file=FILE'
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Enable the cache: use and save the results of the tests in FILE,
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traditionally `config.cache'. FILE defaults to `/dev/null' to
|
|
disable caching.
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|
|
|
`--config-cache'
|
|
`-C'
|
|
Alias for `--cache-file=config.cache'.
|
|
|
|
`--quiet'
|
|
`--silent'
|
|
`-q'
|
|
Do not print messages saying which checks are being made. To
|
|
suppress all normal output, redirect it to `/dev/null' (any error
|
|
messages will still be shown).
|
|
|
|
`--srcdir=DIR'
|
|
Look for the package's source code in directory DIR. Usually
|
|
`configure' can determine that directory automatically.
|
|
|
|
`configure' also accepts some other, not widely useful, options. Run
|
|
`configure --help' for more details.
|