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#
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#  $Id: README.configure,v 1.2 2001-09-27 11:59:04 chris Exp $
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#
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1. Autoconf support
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===================
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This version of RTEMS is configured with GNU autoconf. RTEMS can be
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configured and built either standalone or together with the compiler
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tools in the Cygnus one-tree structure. Using autoconf also means
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that RTEMS now can be built in a separate build directory.
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2. Installation
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===============
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2.1 Standalone build
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To configure RTEMS for a specific target, run configure in the build
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directory. In addition to the standard configure options, the following
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RTEMS-specific option are supported:
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        --disable-rtems-inlines
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        --disable-posix
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        --disable-itron
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        --disable-networking
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        --enable-cxx
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        --enable-bare-cpu-model=
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        --enable-bare-cpu-cflags=
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        --enable-gcc28               (also use enable-libcdir when disabled)
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        --enable-libcdir=      (do not use if gcc 2.8 is enabled)
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        --enable-multiprocessing
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        --enable-rtemsbsp="bsp1 bsp2 ..."
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        --enable-tests
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        --enable-rdbg            (only valid for i386 and some PowerPC BSPs)
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In addition, the following standard autoconf options are frequently
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used when configuring RTEMS installations:
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        --prefix=INSTALL_DIRECTORY
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        --program-prefix=
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By default, inline routines are used instead of macros where possible.
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Macros can be selected using the --disable-inlines option.  [NOTE:
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Some APIs may not support macro versions of their inline routines.]
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By default, the RTEMS POSIX 1003.1b interface is built for targets that support
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it. It can be disabled with the --disable-posix option.
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By default, the RTEMS uITRON interface is built for targets that support
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it. It can be disabled with the --disable-itron option.
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By default, the RTEMS networking support is built for targets which
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support it.  It can be specifically disabled for those targets
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with the --disable-networking option.
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By default, the RTEMS remote debugger server support is not built.
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It can be specifically enabled for the targets that support it.
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with the --enable-rdbg option. NB : the RTEMS networking support
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must be enabled to support the remote debugger server.
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By default, the RTEMS support of C++ is disabled.  It can be enabled
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with the --enable-cxx option. If the rtems++ C++ library is installed
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it will also be build.
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By default, the RTEMS test suites are NOT configured -- only the
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sample tests are built.  The --enable-tests will not configure
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the RTEMS test suite. The default speeds up the build
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and configure process when the tests are not desired.
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By default, RTEMS is built using arguments and build rules which are
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NOT compatible with gcc 2.7.2.2.  If using a gcc which supports the
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-specs option, then the --enable-gcc28 option may be used to enable
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this feature.  You should use the --enable-gcc28 option when using
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either the egcs source tree, testgcc snapshots, or gcc 2.8.0 or newer.
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If you --disable-gcc28, then you MUST  specify the location of the
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Standard C Library with the --enable-libcdir option.   [NOTE: These
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options are considered obsolete and may be removed in a future
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RTEMS release.]
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By default, multiprocessing is is not built.  It can be enabled
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for those BSPs supporting it by the --enable-multiprocessing option.
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By default, all bsps for a target are built. The bare BSP is not built
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unless directlty specified. There are  two ways of changing this:
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  + use the --enable-rtemsbsp otion which will set the specified
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    bsps as the default bsps, or
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  + set the RTEMS_BSP variable during make (see below).
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The --enable-rtemsbsp= option configures RTEMS for a specific target
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architecture.  The following targets are supported:
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        (none)                  will build the host-based version on Linux,
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                                Solaris and HPUX.
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        a29k-rtems              only standalone, uses non-gnu compiler
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        i386-rtems
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        i960-rtems
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        hppa1.1-rtems
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        m68k-rtems
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        mips64orion-rtems
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        no_cpu-rtems
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        powerpc-rtems
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        sparc-rtems
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        bare                    see notes
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The cross-compiler is set to $(target)-gcc by default. This can be
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overriden by:
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  + using the --program-prefix option to configure to specify the
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    string which will prepended to the tool names.  Be sure to include
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    a trailing "-".  For example, to use a m68k-coff toolset, use the
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    --program-prefix=m68k-coff- option.
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To build, run make in the build directory. To specify which bsps to build,
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add the RTEMS_BSP="bsp1 bsp2 .." to the make command.  Specifying multiple
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BSPs to build only works from the top level build directory.
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Installation is done under $(prefix)/rtems.
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As an example, to build and install the mvme136 and dmv152 bsps for m68k do:
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        (path_to_rtems_src)/configure --target=m68k-rtems
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        make RTEMS_BSP="mvme136 dmv152"
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        make install RTEMS_BSP="mvme136 dmv152"
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The sample tests are built by 'make all', do a 'make test' to build the full
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test suite.
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2.2 Build with Cygnus one-tree release
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To build and install RTEMS with the one-tree structure, just copy the rtems
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directory to the tree. The one-tree configure.in and Makefile.in has to be
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replaced with the RTEMS-aware versions. The build options are the same as
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for the standalone build.
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2.3 Target Dependent Notes
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bare:
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  1.  See the README in the bare bsp source directory. This should
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      contain all info you need.
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  2.  The bare bsp source contains a script to show how to build it.
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  3.  The configure flags must be used to get the bare bsp to work.
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      The --enable-bare-cpu-model and --enable-bare-cpu-cflags are the
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      only pieces of information. The module is usually a gcc module
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      such as m68302 or mcpu32. The flags are passed directly to gcc.
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      Use "" if more than one option is specified.
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3. To use the installed RTEMS library
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=====================================
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To use the installed RTEMS bsps to build applications, the application
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makefile has to include a bsp-specific makefile that will define the
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RTEMS variables necessary to find include files and libraries. The
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bsp-specific makefile is installed at
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        $(RTEMS_MAKEFILE_PATH)/Makefile.inc
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For the erc32 bsp installed at /usr/local/cross, the environment
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variable RTEMS_MAKEFILE_PATH would be set as follows to the
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following:
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/usr/local/cross/sparc-rtems/rtems/erc32/Makefile.inc
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4. Supported target bsps
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========================
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The following bsps are supported:
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host-based      : posix (on linux, solaris and hpux)
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a29k            : portsw
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i386            : i386ex pc386
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i960            : cvme961
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hppa1.1         : simhppa
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m68k            : dmv152 efi332 efi68k gen68302 gen68340 gen68360
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                  gen68360_040 idp mvme136 mvme147 mvme147s mvme162 ods68302
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no_cpu          : no_bsp
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mips64orion     : p4600 p4650 (p4000 port with either R4600 or R4650)
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powerpc         : papyrus psim helas403
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sh              : gensh1
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sparc           : erc32
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any             : bare
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5. Makefile structure
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=====================
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The makefiles have been re-organised. Most gnu-based bsps now use three
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main makefiles:
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    + custom/default.cfg,
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    + custom/bsp.cfg and
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    + ompilers/gcc-target-default.cfg.
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Default.cfg sets the deafult values of certain common build options.
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Bsp.cfg set bsp-specific build options and can also override the
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default settings.
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Gcc-target-default.cfg contains the common gcc definitions. Some targets
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(a29k, no_cpu, and posix) still use the old structure.
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6. Adding a bsp
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===============
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The top-level configure.in has to be modified if a new target is added
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or if a new bsp is to be built by default. The additions required is
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basically to add which makefiles are to be created by configure and
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to add the target to the selection statement. To re-generate
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configure, autoconf-2.12 is needed.
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7. Tested configurations
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========================
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All gnu-based bsps have been built on Linux.
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The native (posix) ports have been built and run only on Linux.
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The following configurations have NOT been tested:
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    + Anything on Nextstep, HPUX and Irix.
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    + The a29k port.
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8. Pre-requisites
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=================
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Gawk version 2 or higher.
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GNU make version 3.72 or higher.
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Bash.
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gcc version ???
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TODO
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====
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The install-if-change script requires bash. On solaris systems, this should
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be changed to ksh, since ksh is provided with solaris (bash not).
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A fairly rescent version of gawk is needed to build RTEMS. This should be
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changed so that a plain vanilla awk also works. [NOTE: This dependency
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should disappear when the "gcc 2.8 -specs" is finished.]
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'make install' should only install necessary files, not the full
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PROJECT_RELEASE directory as now.
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Posix port on solaris-2.5 fails due to undefined built-in functions
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(gcc-2.7.2, might be my installation).
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Improve support for 'make CFLAGS=xxx'.
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