platform.m4 19.0 KB
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#
# Copyright (c) 2011, 2012, Oracle and/or its affiliates. All rights reserved.
# DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
#
# This code is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License version 2 only, as
# published by the Free Software Foundation.  Oracle designates this
# particular file as subject to the "Classpath" exception as provided
# by Oracle in the LICENSE file that accompanied this code.
#
# This code is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
# version 2 for more details (a copy is included in the LICENSE file that
# accompanied this code).
#
# You should have received a copy of the GNU General Public License version
# 2 along with this work; if not, write to the Free Software Foundation,
# Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
#
# Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
# or visit www.oracle.com if you need additional information or have any
# questions.
#

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# Support macro for PLATFORM_EXTRACT_TARGET_AND_BUILD.
# Converts autoconf style CPU name to OpenJDK style, into
# VAR_CPU, VAR_CPU_ARCH, VAR_CPU_BITS and VAR_CPU_ENDIAN.
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AC_DEFUN([PLATFORM_EXTRACT_VARS_FROM_CPU],
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[
  # First argument is the cpu name from the trip/quad
  case "$1" in
    x86_64)
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      VAR_CPU=x86_64
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      VAR_CPU_ARCH=x86
      VAR_CPU_BITS=64
      VAR_CPU_ENDIAN=little
      ;;
    i?86)
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      VAR_CPU=x86
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      VAR_CPU_ARCH=x86
      VAR_CPU_BITS=32
      VAR_CPU_ENDIAN=little
      ;;
    arm*)
      VAR_CPU=arm
      VAR_CPU_ARCH=arm
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      VAR_CPU_BITS=32
      VAR_CPU_ENDIAN=little
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      ;;
    powerpc)
      VAR_CPU=ppc
      VAR_CPU_ARCH=ppc
      VAR_CPU_BITS=32
      VAR_CPU_ENDIAN=big
       ;;
    powerpc64)
      VAR_CPU=ppc64
      VAR_CPU_ARCH=ppc
      VAR_CPU_BITS=64
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      VAR_CPU_ENDIAN=big
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       ;;
    sparc)
      VAR_CPU=sparc
      VAR_CPU_ARCH=sparc
      VAR_CPU_BITS=32
      VAR_CPU_ENDIAN=big
       ;;
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    sparcv9)
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      VAR_CPU=sparcv9
      VAR_CPU_ARCH=sparc
      VAR_CPU_BITS=64
      VAR_CPU_ENDIAN=big
       ;;
    *)
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      AC_MSG_ERROR([unsupported cpu $1])
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      ;;
  esac
])

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# Support macro for PLATFORM_EXTRACT_TARGET_AND_BUILD.
# Converts autoconf style OS name to OpenJDK style, into
# VAR_OS and VAR_OS_API.
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AC_DEFUN([PLATFORM_EXTRACT_VARS_FROM_OS],
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[
  case "$1" in
    *linux*)
      VAR_OS=linux
      VAR_OS_API=posix
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      VAR_OS_ENV=linux
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      ;;
    *solaris*)
      VAR_OS=solaris
      VAR_OS_API=posix
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      VAR_OS_ENV=solaris
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      ;;
    *darwin*)
      VAR_OS=macosx
      VAR_OS_API=posix
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      VAR_OS_ENV=macosx
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      ;;
    *bsd*)
      VAR_OS=bsd
      VAR_OS_API=posix
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      VAR_OS_ENV=bsd
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      ;;
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    *cygwin*)
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      VAR_OS=windows
      VAR_OS_API=winapi
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      VAR_OS_ENV=windows.cygwin
      ;;
    *mingw*)
      VAR_OS=windows
      VAR_OS_API=winapi
      VAR_OS_ENV=windows.msys
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      ;;
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    *aix*)
      VAR_OS=aix
      VAR_OS_API=posix
      VAR_OS_ENV=aix
      ;;
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    *)
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      AC_MSG_ERROR([unsupported operating system $1])
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      ;;
  esac
])

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# Expects $host_os $host_cpu $build_os and $build_cpu
# and $with_target_bits to have been setup!
#
# Translate the standard triplet(quadruplet) definition
# of the target/build system into OPENJDK_TARGET_OS, OPENJDK_TARGET_CPU,
# OPENJDK_BUILD_OS, etc.
AC_DEFUN([PLATFORM_EXTRACT_TARGET_AND_BUILD],
[
    # Copy the autoconf trip/quadruplet verbatim to OPENJDK_TARGET_AUTOCONF_NAME
    # (from the autoconf "host") and OPENJDK_BUILD_AUTOCONF_NAME
    # Note that we might later on rewrite e.g. OPENJDK_TARGET_CPU due to reduced build,
    # but this will not change the value of OPENJDK_TARGET_AUTOCONF_NAME.     
    OPENJDK_TARGET_AUTOCONF_NAME="$host"
    OPENJDK_BUILD_AUTOCONF_NAME="$build"
    AC_SUBST(OPENJDK_TARGET_AUTOCONF_NAME)
    AC_SUBST(OPENJDK_BUILD_AUTOCONF_NAME)

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    # Convert the autoconf OS/CPU value to our own data, into the VAR_OS/CPU variables.
    PLATFORM_EXTRACT_VARS_FROM_OS($build_os)
    PLATFORM_EXTRACT_VARS_FROM_CPU($build_cpu)
    # ..and setup our own variables. (Do this explicitely to facilitate searching)
    OPENJDK_BUILD_OS="$VAR_OS"
    OPENJDK_BUILD_OS_API="$VAR_OS_API"
    OPENJDK_BUILD_OS_ENV="$VAR_OS_ENV"
    OPENJDK_BUILD_CPU="$VAR_CPU"
    OPENJDK_BUILD_CPU_ARCH="$VAR_CPU_ARCH"
    OPENJDK_BUILD_CPU_BITS="$VAR_CPU_BITS"
    OPENJDK_BUILD_CPU_ENDIAN="$VAR_CPU_ENDIAN"
    AC_SUBST(OPENJDK_BUILD_OS)
    AC_SUBST(OPENJDK_BUILD_OS_API)
    AC_SUBST(OPENJDK_BUILD_CPU)
    AC_SUBST(OPENJDK_BUILD_CPU_ARCH)
    AC_SUBST(OPENJDK_BUILD_CPU_BITS)
    AC_SUBST(OPENJDK_BUILD_CPU_ENDIAN)

    AC_MSG_CHECKING([openjdk-build os-cpu])
    AC_MSG_RESULT([$OPENJDK_BUILD_OS-$OPENJDK_BUILD_CPU])

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    # Convert the autoconf OS/CPU value to our own data, into the VAR_OS/CPU variables.
    PLATFORM_EXTRACT_VARS_FROM_OS($host_os)
    PLATFORM_EXTRACT_VARS_FROM_CPU($host_cpu)
    # ... and setup our own variables. (Do this explicitely to facilitate searching)
    OPENJDK_TARGET_OS="$VAR_OS"
    OPENJDK_TARGET_OS_API="$VAR_OS_API"
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    OPENJDK_TARGET_OS_ENV="$VAR_OS_ENV"
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    OPENJDK_TARGET_CPU="$VAR_CPU"
    OPENJDK_TARGET_CPU_ARCH="$VAR_CPU_ARCH"
    OPENJDK_TARGET_CPU_BITS="$VAR_CPU_BITS"
    OPENJDK_TARGET_CPU_ENDIAN="$VAR_CPU_ENDIAN"
    AC_SUBST(OPENJDK_TARGET_OS)
    AC_SUBST(OPENJDK_TARGET_OS_API)
    AC_SUBST(OPENJDK_TARGET_CPU)
    AC_SUBST(OPENJDK_TARGET_CPU_ARCH)
    AC_SUBST(OPENJDK_TARGET_CPU_BITS)
    AC_SUBST(OPENJDK_TARGET_CPU_ENDIAN)

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    AC_MSG_CHECKING([openjdk-target os-cpu])
    AC_MSG_RESULT([$OPENJDK_TARGET_OS-$OPENJDK_TARGET_CPU])
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])

# Check if a reduced build (32-bit on 64-bit platforms) is requested, and modify behaviour
# accordingly. Must be done after setting up build and target system, but before
# doing anything else with these values.
AC_DEFUN([PLATFORM_SETUP_TARGET_CPU_BITS],
[
  AC_ARG_WITH(target-bits, [AS_HELP_STRING([--with-target-bits],
     [build 32-bit or 64-bit binaries (for platforms that support it), e.g. --with-target-bits=32 @<:@guessed@:>@])])

  # We have three types of compiles:
  # native  == normal compilation, target system == build system
  # cross   == traditional cross compilation, target system != build system; special toolchain needed
  # reduced == using native compilers, but with special flags (e.g. -m32) to produce 32-bit builds on 64-bit machines
  #
  if test "x$OPENJDK_BUILD_AUTOCONF_NAME" != "x$OPENJDK_TARGET_AUTOCONF_NAME"; then
    # We're doing a proper cross-compilation
    COMPILE_TYPE="cross"
  else
    COMPILE_TYPE="native"
  fi

  if test "x$with_target_bits" != x; then
    if test "x$COMPILE_TYPE" = "xcross"; then
      AC_MSG_ERROR([It is not possible to combine --with-target-bits=X and proper cross-compilation. Choose either.])
    fi

    if test "x$with_target_bits" = x32 && test "x$OPENJDK_TARGET_CPU_BITS" = x64; then
      # A reduced build is requested
      COMPILE_TYPE="reduced"
      OPENJDK_TARGET_CPU_BITS=32
      if test "x$OPENJDK_TARGET_CPU_ARCH" = "xx86"; then
        OPENJDK_TARGET_CPU=x86
      elif test "x$OPENJDK_TARGET_CPU_ARCH" = "xsparc"; then
        OPENJDK_TARGET_CPU=sparc
      else
        AC_MSG_ERROR([Reduced build (--with-target-bits=32) is only supported on x86_64 and sparcv9])
      fi 
    elif test "x$with_target_bits" = x64 && test "x$OPENJDK_TARGET_CPU_BITS" = x32; then
      AC_MSG_ERROR([It is not possible to use --with-target-bits=64 on a 32 bit system. Use proper cross-compilation instead.])
    elif test "x$with_target_bits" = "x$OPENJDK_TARGET_CPU_BITS"; then
      AC_MSG_NOTICE([--with-target-bits are set to build platform address size; argument has no meaning])
    else
      AC_MSG_ERROR([--with-target-bits can only be 32 or 64, you specified $with_target_bits!])
    fi
  fi
  AC_SUBST(COMPILE_TYPE)

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AC_MSG_CHECKING([compilation type])
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AC_MSG_RESULT([$COMPILE_TYPE])
])

    # Setup the legacy variables, for controlling the old makefiles.
    #
AC_DEFUN([PLATFORM_SETUP_LEGACY_VARS],
[
    # Also store the legacy naming of the cpu.
    # Ie i586 and amd64 instead of x86 and x86_64
    OPENJDK_TARGET_CPU_LEGACY="$OPENJDK_TARGET_CPU"
    if test "x$OPENJDK_TARGET_CPU" = xx86; then 
      OPENJDK_TARGET_CPU_LEGACY="i586"
    elif test "x$OPENJDK_TARGET_OS" != xmacosx && test "x$OPENJDK_TARGET_CPU" = xx86_64; then 
      # On all platforms except MacOSX replace x86_64 with amd64.
      OPENJDK_TARGET_CPU_LEGACY="amd64"
    fi
    AC_SUBST(OPENJDK_TARGET_CPU_LEGACY)

    # And the second legacy naming of the cpu.
    # Ie i386 and amd64 instead of x86 and x86_64.
    OPENJDK_TARGET_CPU_LEGACY_LIB="$OPENJDK_TARGET_CPU"
    if test "x$OPENJDK_TARGET_CPU" = xx86; then 
      OPENJDK_TARGET_CPU_LEGACY_LIB="i386"
    elif test "x$OPENJDK_TARGET_CPU" = xx86_64; then 
      OPENJDK_TARGET_CPU_LEGACY_LIB="amd64"
    fi
    AC_SUBST(OPENJDK_TARGET_CPU_LEGACY_LIB)

    # This is the name of the cpu (but using i386 and amd64 instead of
    # x86 and x86_64, respectively), preceeded by a /, to be used when
    # locating libraries. On macosx, it's empty, though.
    OPENJDK_TARGET_CPU_LIBDIR="/$OPENJDK_TARGET_CPU_LEGACY_LIB"
    if test "x$OPENJDK_TARGET_OS" = xmacosx; then
        OPENJDK_TARGET_CPU_LIBDIR=""
    fi
    AC_SUBST(OPENJDK_TARGET_CPU_LIBDIR)

    # OPENJDK_TARGET_CPU_ISADIR is normally empty. On 64-bit Solaris systems, it is set to
    # /amd64 or /sparcv9. This string is appended to some library paths, like this:
    # /usr/lib${OPENJDK_TARGET_CPU_ISADIR}/libexample.so
    OPENJDK_TARGET_CPU_ISADIR=""
    if test "x$OPENJDK_TARGET_OS" = xsolaris; then
      if test "x$OPENJDK_TARGET_CPU" = xx86_64; then 
          OPENJDK_TARGET_CPU_ISADIR="/amd64"
      elif test "x$OPENJDK_TARGET_CPU" = xsparcv9; then 
          OPENJDK_TARGET_CPU_ISADIR="/sparcv9"
      fi
    fi
    AC_SUBST(OPENJDK_TARGET_CPU_ISADIR)

    # Setup OPENJDK_TARGET_CPU_OSARCH, which is used to set the os.arch Java system property
    OPENJDK_TARGET_CPU_OSARCH="$OPENJDK_TARGET_CPU"
    if test "x$OPENJDK_TARGET_OS" = xlinux && test "x$OPENJDK_TARGET_CPU" = xx86; then
      # On linux only, we replace x86 with i386.
      OPENJDK_TARGET_CPU_OSARCH="i386"
    elif test "x$OPENJDK_TARGET_OS" != xmacosx && test "x$OPENJDK_TARGET_CPU" = xx86_64; then
      # On all platforms except macosx, we replace x86_64 with amd64.
      OPENJDK_TARGET_CPU_OSARCH="amd64"
    fi
    AC_SUBST(OPENJDK_TARGET_CPU_OSARCH)

    OPENJDK_TARGET_CPU_JLI="$OPENJDK_TARGET_CPU"
    if test "x$OPENJDK_TARGET_CPU" = xx86; then 
      OPENJDK_TARGET_CPU_JLI="i386"
    elif test "x$OPENJDK_TARGET_OS" != xmacosx && test "x$OPENJDK_TARGET_CPU" = xx86_64; then
      # On all platforms except macosx, we replace x86_64 with amd64.
      OPENJDK_TARGET_CPU_JLI="amd64"
    fi
    # Now setup the -D flags for building libjli.
    OPENJDK_TARGET_CPU_JLI_CFLAGS="-DLIBARCHNAME='\"$OPENJDK_TARGET_CPU_JLI\"'"
    if test "x$OPENJDK_TARGET_OS" = xsolaris; then
      if test "x$OPENJDK_TARGET_CPU_ARCH" = xsparc; then
        OPENJDK_TARGET_CPU_JLI_CFLAGS="$OPENJDK_TARGET_CPU_JLI_CFLAGS -DLIBARCH32NAME='\"sparc\"' -DLIBARCH64NAME='\"sparcv9\"'"
      elif test "x$OPENJDK_TARGET_CPU_ARCH" = xx86; then 
        OPENJDK_TARGET_CPU_JLI_CFLAGS="$OPENJDK_TARGET_CPU_JLI_CFLAGS -DLIBARCH32NAME='\"i386\"' -DLIBARCH64NAME='\"amd64\"'"
      fi
    fi
    AC_SUBST(OPENJDK_TARGET_CPU_JLI_CFLAGS)

    # Setup OPENJDK_TARGET_OS_API_DIR, used in source paths.
    if test "x$OPENJDK_TARGET_OS_API" = xposix; then
        OPENJDK_TARGET_OS_API_DIR="solaris"
    fi
    if test "x$OPENJDK_TARGET_OS_API" = xwinapi; then
        OPENJDK_TARGET_OS_API_DIR="windows"
    fi
    AC_SUBST(OPENJDK_TARGET_OS_API_DIR)

    if test "x$OPENJDK_TARGET_CPU_BITS" = x64; then
        A_LP64="LP64:="
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        # -D_LP64=1 is only set on linux and mac. Setting on windows causes diff in 
        # unpack200.exe
        if test "x$OPENJDK_TARGET_OS" = xlinux || test "x$OPENJDK_TARGET_OS" = xmacosx; then
            ADD_LP64="-D_LP64=1"
        fi
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    fi
    AC_SUBST(LP64,$A_LP64)

    if test "x$COMPILE_TYPE" = "xcross"; then
      # FIXME: ... or should this include reduced builds..?
      DEFINE_CROSS_COMPILE_ARCH="CROSS_COMPILE_ARCH:=$OPENJDK_TARGET_CPU_LEGACY"
    else
      DEFINE_CROSS_COMPILE_ARCH=""
    fi
    AC_SUBST(DEFINE_CROSS_COMPILE_ARCH)
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    # ZERO_ARCHDEF is used to enable architecture-specific code
    case "${OPENJDK_TARGET_CPU}" in
      ppc*)    ZERO_ARCHDEF=PPC   ;;
      s390*)   ZERO_ARCHDEF=S390  ;;
      sparc*)  ZERO_ARCHDEF=SPARC ;;
      x86_64*) ZERO_ARCHDEF=AMD64 ;;
      x86)     ZERO_ARCHDEF=IA32  ;;
      *)      ZERO_ARCHDEF=$(echo "${OPENJDK_TARGET_CPU_LEGACY_LIB}" | tr a-z A-Z)
    esac
    AC_SUBST(ZERO_ARCHDEF)

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])

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AC_DEFUN([PLATFORM_SET_RELEASE_FILE_OS_VALUES],
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[
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    if test "x$OPENJDK_TARGET_OS" = "xsolaris"; then
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       REQUIRED_OS_NAME=SunOS
       REQUIRED_OS_VERSION=5.10
    fi
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    if test "x$OPENJDK_TARGET_OS" = "xlinux"; then
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       REQUIRED_OS_NAME=Linux
       REQUIRED_OS_VERSION=2.6
    fi
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    if test "x$OPENJDK_TARGET_OS" = "xwindows"; then
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        REQUIRED_OS_NAME=Windows
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        if test "x$OPENJDK_TARGET_CPU_BITS" = "x64"; then
            REQUIRED_OS_VERSION=5.2
        else
            REQUIRED_OS_VERSION=5.1
        fi
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    fi
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    if test "x$OPENJDK_TARGET_OS" = "xmacosx"; then
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        REQUIRED_OS_NAME=Darwin
        REQUIRED_OS_VERSION=11.2
    fi

    AC_SUBST(REQUIRED_OS_NAME)
    AC_SUBST(REQUIRED_OS_VERSION)
])
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#%%% Build and target systems %%%
AC_DEFUN_ONCE([PLATFORM_SETUP_OPENJDK_BUILD_AND_TARGET],
[
# Figure out the build and target systems. # Note that in autoconf terminology, "build" is obvious, but "target"
# is confusing; it assumes you are cross-compiling a cross-compiler (!)  and "target" is thus the target of the
# product you're building. The target of this build is called "host". Since this is confusing to most people, we
# have not adopted that system, but use "target" as the platform we are building for. In some places though we need
# to use the configure naming style.
AC_CANONICAL_BUILD
AC_CANONICAL_HOST
AC_CANONICAL_TARGET

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PLATFORM_EXTRACT_TARGET_AND_BUILD
PLATFORM_SETUP_TARGET_CPU_BITS
PLATFORM_SET_RELEASE_FILE_OS_VALUES
PLATFORM_SETUP_LEGACY_VARS
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])

AC_DEFUN_ONCE([PLATFORM_SETUP_OPENJDK_BUILD_OS_VERSION],
[
###############################################################################

# Note that this is the build platform OS version!

OS_VERSION="`uname -r | ${SED} 's!\.! !g' | ${SED} 's!-! !g'`"
OS_VERSION_MAJOR="`${ECHO} ${OS_VERSION} | ${CUT} -f 1 -d ' '`"
OS_VERSION_MINOR="`${ECHO} ${OS_VERSION} | ${CUT} -f 2 -d ' '`"
OS_VERSION_MICRO="`${ECHO} ${OS_VERSION} | ${CUT} -f 3 -d ' '`"
AC_SUBST(OS_VERSION_MAJOR)
AC_SUBST(OS_VERSION_MINOR)
AC_SUBST(OS_VERSION_MICRO)
])

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# Support macro for PLATFORM_SETUP_OPENJDK_TARGET_BITS.
# Add -mX to various FLAGS variables.
AC_DEFUN([PLATFORM_SET_COMPILER_TARGET_BITS_FLAGS],
[
  # keep track of c/cxx flags that we added outselves...
  #   to prevent emitting warning...
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  ADDED_CFLAGS=" ${COMPILER_TARGET_BITS_FLAG}${OPENJDK_TARGET_CPU_BITS}"
  ADDED_CXXFLAGS=" ${COMPILER_TARGET_BITS_FLAG}${OPENJDK_TARGET_CPU_BITS}"
  ADDED_LDFLAGS=" ${COMPILER_TARGET_BITS_FLAG}${OPENJDK_TARGET_CPU_BITS}"
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  CFLAGS="${CFLAGS}${ADDED_CFLAGS}"
  CXXFLAGS="${CXXFLAGS}${ADDED_CXXFLAGS}"
  LDFLAGS="${LDFLAGS}${ADDED_LDFLAGS}"
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  CFLAGS_JDK="${CFLAGS_JDK}${ADDED_CFLAGS}"
  CXXFLAGS_JDK="${CXXFLAGS_JDK}${ADDED_CXXFLAGS}"
  LDFLAGS_JDK="${LDFLAGS_JDK}${ADDED_LDFLAGS}"
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])

AC_DEFUN_ONCE([PLATFORM_SETUP_OPENJDK_TARGET_BITS],
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[
###############################################################################
#
# Now we check if libjvm.so will use 32 or 64 bit pointers for the C/C++ code.
# (The JVM can use 32 or 64 bit Java pointers but that decision
# is made at runtime.)
#
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if test "x$OPENJDK_TARGET_OS" = xsolaris || test "x$OPENJDK_TARGET_OS" = xaix; then
  # Always specify -m flag on Solaris
  # And -q on AIX because otherwise the compiler produces 32-bit objects by default
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  PLATFORM_SET_COMPILER_TARGET_BITS_FLAGS
elif test "x$COMPILE_TYPE" = xreduced; then
  if test "x$OPENJDK_TARGET_OS" != xwindows; then
    # Specify -m if running reduced on other Posix platforms
    PLATFORM_SET_COMPILER_TARGET_BITS_FLAGS
  fi
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fi

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# Make compilation sanity check
AC_CHECK_HEADERS([stdio.h], , [
  AC_MSG_NOTICE([Failed to compile stdio.h. This likely implies missing compile dependencies.])
  if test "x$COMPILE_TYPE" = xreduced; then
    AC_MSG_NOTICE([You are doing a reduced build. Check that you have 32-bit libraries installed.])
  elif test "x$COMPILE_TYPE" = xcross; then
    AC_MSG_NOTICE([You are doing a cross-compilation. Check that you have all target platform libraries installed.])
  fi
  AC_MSG_ERROR([Cannot continue.])
])
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AC_CHECK_SIZEOF([int *], [1111])
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# AC_CHECK_SIZEOF defines 'ac_cv_sizeof_int_p' to hold the number of bytes used by an 'int*'
if test "x$ac_cv_sizeof_int_p" = x; then
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    # The test failed, lets stick to the assumed value.
    AC_MSG_WARN([The number of bits in the target could not be determined, using $OPENJDK_TARGET_CPU_BITS.])
else
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    TESTED_TARGET_CPU_BITS=`expr 8 \* $ac_cv_sizeof_int_p`
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    if test "x$TESTED_TARGET_CPU_BITS" != "x$OPENJDK_TARGET_CPU_BITS"; then
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        # This situation may happen on 64-bit platforms where the compiler by default only generates 32-bit objects
        # Let's try to implicitely set the compilers target architecture and retry the test
        AC_MSG_NOTICE([The tested number of bits in the target ($TESTED_TARGET_CPU_BITS) differs from the number of bits expected to be found in the target ($OPENJDK_TARGET_CPU_BITS).])
        AC_MSG_NOTICE([I'll retry after setting the platforms compiler target bits flag to ${COMPILER_TARGET_BITS_FLAG}${OPENJDK_TARGET_CPU_BITS}])
        PLATFORM_SET_COMPILER_TARGET_BITS_FLAGS

        # We have to unset 'ac_cv_sizeof_int_p' first, otherwise AC_CHECK_SIZEOF will use the previously cached value!
        unset ac_cv_sizeof_int_p
	# And we have to undef the definition of SIZEOF_INT_P in confdefs.h by the previous invocation of AC_CHECK_SIZEOF
	cat >>confdefs.h <<_ACEOF
#undef SIZEOF_INT_P
_ACEOF

        AC_CHECK_SIZEOF([int *], [1111])

        TESTED_TARGET_CPU_BITS=`expr 8 \* $ac_cv_sizeof_int_p`

        if test "x$TESTED_TARGET_CPU_BITS" != "x$OPENJDK_TARGET_CPU_BITS"; then
            AC_MSG_ERROR([The tested number of bits in the target ($TESTED_TARGET_CPU_BITS) differs from the number of bits expected to be found in the target ($OPENJDK_TARGET_CPU_BITS)])
        fi
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    fi
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fi

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AC_MSG_CHECKING([for target address size])
AC_MSG_RESULT([$OPENJDK_TARGET_CPU_BITS bits])
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])

AC_DEFUN_ONCE([PLATFORM_SETUP_OPENJDK_TARGET_ENDIANNESS],
[
###############################################################################
#
# Is the target little of big endian?
#
AC_C_BIGENDIAN([ENDIAN="big"],[ENDIAN="little"],[ENDIAN="unknown"],[ENDIAN="universal_endianness"])

if test "x$ENDIAN" = xuniversal_endianness; then
    AC_MSG_ERROR([Building with both big and little endianness is not supported])
fi
if test "x$ENDIAN" != "x$OPENJDK_TARGET_CPU_ENDIAN"; then
513
    AC_MSG_ERROR([The tested endian in the target ($ENDIAN) differs from the endian expected to be found in the target ($OPENJDK_TARGET_CPU_ENDIAN)])
514 515
fi
])