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# -*- mode:python -*-

# Copyright (c) 2004-2005 The Regents of The University of Michigan
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met: redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer;
# redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution;
# neither the name of the copyright holders nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
# Authors: Steve Reinhardt

###################################################
#
# SCons top-level build description (SConstruct) file.
#
# While in this directory ('m5'), just type 'scons' to build the default
# configuration (see below), or type 'scons build/<CONFIG>/<binary>'
# to build some other configuration (e.g., 'build/ALPHA_FS/m5.opt' for
# the optimized full-system version).
#
# You can build M5 in a different directory as long as there is a
# 'build/<CONFIG>' somewhere along the target path.  The build system
# expects that all configs under the same build directory are being
# built for the same host system.
#
# Examples:
#
#   The following two commands are equivalent.  The '-u' option tells
#   scons to search up the directory tree for this SConstruct file.
#   % cd <path-to-src>/m5 ; scons build/ALPHA_FS/m5.debug
#   % cd <path-to-src>/m5/build/ALPHA_FS; scons -u m5.debug
#
#   The following two commands are equivalent and demonstrate building
#   in a directory outside of the source tree.  The '-C' option tells
#   scons to chdir to the specified directory to find this SConstruct
#   file.
#   % cd <path-to-src>/m5 ; scons /local/foo/build/ALPHA_FS/m5.debug
#   % cd /local/foo/build/ALPHA_FS; scons -C <path-to-src>/m5 m5.debug
#
# You can use 'scons -H' to print scons options.  If you're in this
# 'm5' directory (or use -u or -C to tell scons where to find this
# file), you can use 'scons -h' to print all the M5-specific build
# options as well.
#
###################################################

import sys
import os
import re

from os.path import isdir, isfile, join as joinpath

import SCons

# Check for recent-enough Python and SCons versions.  If your system's
# default installation of Python is not recent enough, you can use a
# non-default installation of the Python interpreter by either (1)
# rearranging your PATH so that scons finds the non-default 'python'
# first or (2) explicitly invoking an alternative interpreter on the
# scons script, e.g., "/usr/local/bin/python2.4 `which scons` [args]".
EnsurePythonVersion(2,4)

# Import subprocess after we check the version since it doesn't exist in
# Python < 2.4.
import subprocess

# helper function: compare arrays or strings of version numbers.
# E.g., compare_version((1,3,25), (1,4,1)')
# returns -1, 0, 1 if v1 is <, ==, > v2
def compare_versions(v1, v2):
    def make_version_list(v):
        if isinstance(v, (list,tuple)):
            return v
        elif isinstance(v, str):
            return map(lambda x: int(re.match('\d+', x).group()), v.split('.'))
        else:
            raise TypeError

    v1 = make_version_list(v1)
    v2 = make_version_list(v2)
    # Compare corresponding elements of lists
    for n1,n2 in zip(v1, v2):
        if n1 < n2: return -1
        if n1 > n2: return  1
    # all corresponding values are equal... see if one has extra values
    if len(v1) < len(v2): return -1
    if len(v1) > len(v2): return  1
    return 0

# SCons version numbers need special processing because they can have
# charecters and an release date embedded in them. This function does
# the magic to extract them in a similar way to the SCons internal function
# function does and then checks that the current version is not contained in
# a list of version tuples (bad_ver_strs)
def CheckSCons(bad_ver_strs):
    def scons_ver(v):
        num_parts = v.split(' ')[0].split('.')
        major = int(num_parts[0])
        minor = int(re.match('\d+', num_parts[1]).group())
        rev = 0
        rdate = 0
        if len(num_parts) > 2:
            try: rev = int(re.match('\d+', num_parts[2]).group())
            except: pass
            rev_parts = num_parts[2].split('d')
            if len(rev_parts) > 1:
                rdate = int(re.match('\d+', rev_parts[1]).group())

        return (major, minor, rev, rdate)

    sc_ver = scons_ver(SCons.__version__)
    for bad_ver in bad_ver_strs:
        bv = (scons_ver(bad_ver[0]), scons_ver(bad_ver[1]))
        if  compare_versions(sc_ver, bv[0]) != -1 and\
            compare_versions(sc_ver, bv[1]) != 1:
            print "The version of SCons that you have installed: ", SCons.__version__
            print "has a bug that prevents it from working correctly with M5."
            print "Please install a version NOT contained within the following",
            print "ranges (inclusive):"
            for bad_ver in bad_ver_strs:
                print "    %s - %s" % bad_ver
            Exit(2)

CheckSCons(( 
    # We need a version that is 0.96.91 or newer
    ('0.0.0', '0.96.90'), 
    ))


# The absolute path to the current directory (where this file lives).
ROOT = Dir('.').abspath

# Path to the M5 source tree.
SRCDIR = joinpath(ROOT, 'src')

# tell python where to find m5 python code
sys.path.append(joinpath(ROOT, 'src/python'))

def check_style_hook(ui):
    ui.readconfig(joinpath(ROOT, '.hg', 'hgrc'))
    style_hook = ui.config('hooks', 'pretxncommit.style', None)

    if not style_hook:
        print """\
You're missing the M5 style hook.
Please install the hook so we can ensure that all code fits a common style.

All you'd need to do is add the following lines to your repository .hg/hgrc
or your personal .hgrc
----------------

[extensions]
style = %s/util/style.py

[hooks]
pretxncommit.style = python:style.check_whitespace
""" % (ROOT)
        sys.exit(1)

if ARGUMENTS.get('IGNORE_STYLE') != 'True' and isdir(joinpath(ROOT, '.hg')):
    try:
        from mercurial import ui
        check_style_hook(ui.ui())
    except ImportError:
        pass

###################################################
#
# Figure out which configurations to set up based on the path(s) of
# the target(s).
#
###################################################

# Find default configuration & binary.
Default(os.environ.get('M5_DEFAULT_BINARY', 'build/ALPHA_SE/m5.debug'))

# helper function: find last occurrence of element in list
def rfind(l, elt, offs = -1):
    for i in range(len(l)+offs, 0, -1):
        if l[i] == elt:
            return i
    raise ValueError, "element not found"

# Each target must have 'build' in the interior of the path; the
# directory below this will determine the build parameters.  For
# example, for target 'foo/bar/build/ALPHA_SE/arch/alpha/blah.do' we
# recognize that ALPHA_SE specifies the configuration because it
# follow 'build' in the bulid path.

# Generate absolute paths to targets so we can see where the build dir is
if COMMAND_LINE_TARGETS:
    # Ask SCons which directory it was invoked from
    launch_dir = GetLaunchDir()
    # Make targets relative to invocation directory
    abs_targets = map(lambda x: os.path.normpath(joinpath(launch_dir, str(x))),
                      COMMAND_LINE_TARGETS)
else:
    # Default targets are relative to root of tree
    abs_targets = map(lambda x: os.path.normpath(joinpath(ROOT, str(x))),
                      DEFAULT_TARGETS)


# Generate a list of the unique build roots and configs that the
# collected targets reference.
build_paths = []
build_root = None
for t in abs_targets:
    path_dirs = t.split('/')
    try:
        build_top = rfind(path_dirs, 'build', -2)
    except:
        print "Error: no non-leaf 'build' dir found on target path", t
        Exit(1)
    this_build_root = joinpath('/',*path_dirs[:build_top+1])
    if not build_root:
        build_root = this_build_root
    else:
        if this_build_root != build_root:
            print "Error: build targets not under same build root\n"\
                  "  %s\n  %s" % (build_root, this_build_root)
            Exit(1)
    build_path = joinpath('/',*path_dirs[:build_top+2])
    if build_path not in build_paths:
        build_paths.append(build_path)

# Make sure build_root exists (might not if this is the first build there)
if not isdir(build_root):
    os.mkdir(build_root)

###################################################
#
# Set up the default build environment.  This environment is copied
# and modified according to each selected configuration.
#
###################################################

env = Environment(ENV = os.environ,  # inherit user's environment vars
                  ROOT = ROOT,
                  SRCDIR = SRCDIR)

Export('env')

env.SConsignFile(joinpath(build_root,"sconsign"))

# Default duplicate option is to use hard links, but this messes up
# when you use emacs to edit a file in the target dir, as emacs moves
# file to file~ then copies to file, breaking the link.  Symbolic
# (soft) links work better.
env.SetOption('duplicate', 'soft-copy')

# I waffle on this setting... it does avoid a few painful but
# unnecessary builds, but it also seems to make trivial builds take
# noticeably longer.
if False:
    env.TargetSignatures('content')

#
# Set up global sticky options... these are common to an entire build
# tree (not specific to a particular build like ALPHA_SE)
#

# Option validators & converters for global sticky options
def PathListMakeAbsolute(val):
    if not val:
        return val
    f = lambda p: os.path.abspath(os.path.expanduser(p))
    return ':'.join(map(f, val.split(':')))

def PathListAllExist(key, val, env):
    if not val:
        return
    paths = val.split(':')
    for path in paths:
        if not isdir(path):
            raise SCons.Errors.UserError("Path does not exist: '%s'" % path)

global_sticky_opts_file = joinpath(build_root, 'options.global')

global_sticky_opts = Options(global_sticky_opts_file, args=ARGUMENTS)

global_sticky_opts.AddOptions(
    ('CC', 'C compiler', os.environ.get('CC', env['CC'])),
    ('CXX', 'C++ compiler', os.environ.get('CXX', env['CXX'])),
    ('BATCH', 'Use batch pool for build and tests', False),
    ('BATCH_CMD', 'Batch pool submission command name', 'qdo'),
    ('EXTRAS', 'Add Extra directories to the compilation', '',
     PathListAllExist, PathListMakeAbsolute)
    )    


# base help text
help_text = '''
Usage: scons [scons options] [build options] [target(s)]

'''

help_text += "Global sticky options:\n" \
             + global_sticky_opts.GenerateHelpText(env)

# Update env with values from ARGUMENTS & file global_sticky_opts_file
global_sticky_opts.Update(env)

# Save sticky option settings back to current options file
global_sticky_opts.Save(global_sticky_opts_file, env)

# Parse EXTRAS option to build list of all directories where we're
# look for sources etc.  This list is exported as base_dir_list.
base_dir_list = [joinpath(ROOT, 'src')]
if env['EXTRAS']:
    base_dir_list += env['EXTRAS'].split(':')

Export('base_dir_list')

# M5_PLY is used by isa_parser.py to find the PLY package.
env.Append(ENV = { 'M5_PLY' : str(Dir('ext/ply')) })
env['GCC'] = subprocess.Popen(env['CXX'] + ' --version', shell=True,
        stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
        close_fds=True).communicate()[0].find('g++') >= 0
env['SUNCC'] = subprocess.Popen(env['CXX'] + ' -V', shell=True,
        stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
        close_fds=True).communicate()[0].find('Sun C++') >= 0
env['ICC'] = subprocess.Popen(env['CXX'] + ' -V', shell=True,
        stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
        close_fds=True).communicate()[0].find('Intel') >= 0
if env['GCC'] + env['SUNCC'] + env['ICC'] > 1:
    print 'Error: How can we have two at the same time?'
    Exit(1)


# Set up default C++ compiler flags
if env['GCC']:
    env.Append(CCFLAGS='-pipe')
    env.Append(CCFLAGS='-fno-strict-aliasing')
    env.Append(CCFLAGS=Split('-Wall -Wno-sign-compare -Werror -Wundef'))
    env.Append(CXXFLAGS='-Wno-deprecated')
elif env['ICC']:
    pass #Fix me... add warning flags once we clean up icc warnings
elif env['SUNCC']:
    env.Append(CCFLAGS='-Qoption ccfe')
    env.Append(CCFLAGS='-features=gcc')
    env.Append(CCFLAGS='-features=extensions')
    env.Append(CCFLAGS='-library=stlport4')
    env.Append(CCFLAGS='-xar')
#    env.Append(CCFLAGS='-instances=semiexplicit')
else:
    print 'Error: Don\'t know what compiler options to use for your compiler.'
    print '       Please fix SConstruct and src/SConscript and try again.'
    Exit(1)

# Do this after we save setting back, or else we'll tack on an
# extra 'qdo' every time we run scons.
if env['BATCH']:
    env['CC']  = env['BATCH_CMD'] + ' ' + env['CC']
    env['CXX'] = env['BATCH_CMD'] + ' ' + env['CXX']

if sys.platform == 'cygwin':
    # cygwin has some header file issues...
    env.Append(CCFLAGS=Split("-Wno-uninitialized"))
env.Append(CPPPATH=[Dir('ext/dnet')])

# Check for SWIG
if not env.has_key('SWIG'):
    print 'Error: SWIG utility not found.'
    print '       Please install (see http://www.swig.org) and retry.'
    Exit(1)

# Check for appropriate SWIG version
swig_version = os.popen('swig -version').read().split()
# First 3 words should be "SWIG Version x.y.z"
if len(swig_version) < 3 or \
        swig_version[0] != 'SWIG' or swig_version[1] != 'Version':
    print 'Error determining SWIG version.'
    Exit(1)

min_swig_version = '1.3.28'
if compare_versions(swig_version[2], min_swig_version) < 0:
    print 'Error: SWIG version', min_swig_version, 'or newer required.'
    print '       Installed version:', swig_version[2]
    Exit(1)

# Set up SWIG flags & scanner
swig_flags=Split('-c++ -python -modern -templatereduce $_CPPINCFLAGS')
env.Append(SWIGFLAGS=swig_flags)

# filter out all existing swig scanners, they mess up the dependency
# stuff for some reason
scanners = []
for scanner in env['SCANNERS']:
    skeys = scanner.skeys
    if skeys == '.i':
        continue

    if isinstance(skeys, (list, tuple)) and '.i' in skeys:
        continue

    scanners.append(scanner)

# add the new swig scanner that we like better
from SCons.Scanner import ClassicCPP as CPPScanner
swig_inc_re = '^[ \t]*[%,#][ \t]*(?:include|import)[ \t]*(<|")([^>"]+)(>|")'
scanners.append(CPPScanner("SwigScan", [ ".i" ], "CPPPATH", swig_inc_re))

# replace the scanners list that has what we want
env['SCANNERS'] = scanners

# Add a custom Check function to the Configure context so that we can
# figure out if the compiler adds leading underscores to global
# variables.  This is needed for the autogenerated asm files that we
# use for embedding the python code.
def CheckLeading(context):
    context.Message("Checking for leading underscore in global variables...")
    # 1) Define a global variable called x from asm so the C compiler
    #    won't change the symbol at all.
    # 2) Declare that variable.
    # 3) Use the variable
    #
    # If the compiler prepends an underscore, this will successfully
    # link because the external symbol 'x' will be called '_x' which
    # was defined by the asm statement.  If the compiler does not
    # prepend an underscore, this will not successfully link because
    # '_x' will have been defined by assembly, while the C portion of
    # the code will be trying to use 'x'
    ret = context.TryLink('''
        asm(".globl _x; _x: .byte 0");
        extern int x;
        int main() { return x; }
        ''', extension=".c")
    context.env.Append(LEADING_UNDERSCORE=ret)
    context.Result(ret)
    return ret

# Platform-specific configuration.  Note again that we assume that all
# builds under a given build root run on the same host platform.
conf = Configure(env,
                 conf_dir = joinpath(build_root, '.scons_config'),
                 log_file = joinpath(build_root, 'scons_config.log'),
                 custom_tests = { 'CheckLeading' : CheckLeading })

# Check for leading underscores.  Don't really need to worry either
# way so don't need to check the return code.
conf.CheckLeading()

# Check if we should compile a 64 bit binary on Mac OS X/Darwin
try:
    import platform
    uname = platform.uname()
    if uname[0] == 'Darwin' and compare_versions(uname[2], '9.0.0') >= 0:
        if int(subprocess.Popen('sysctl -n hw.cpu64bit_capable', shell=True,
               stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
               close_fds=True).communicate()[0][0]):
            env.Append(CCFLAGS='-arch x86_64')
            env.Append(CFLAGS='-arch x86_64')
            env.Append(LINKFLAGS='-arch x86_64')
            env.Append(ASFLAGS='-arch x86_64')
except:
    pass

# Recent versions of scons substitute a "Null" object for Configure()
# when configuration isn't necessary, e.g., if the "--help" option is
# present.  Unfortuantely this Null object always returns false,
# breaking all our configuration checks.  We replace it with our own
# more optimistic null object that returns True instead.
if not conf:
    def NullCheck(*args, **kwargs):
        return True

    class NullConf:
        def __init__(self, env):
            self.env = env
        def Finish(self):
            return self.env
        def __getattr__(self, mname):
            return NullCheck

    conf = NullConf(env)

# Find Python include and library directories for embedding the
# interpreter.  For consistency, we will use the same Python
# installation used to run scons (and thus this script).  If you want
# to link in an alternate version, see above for instructions on how
# to invoke scons with a different copy of the Python interpreter.

# Get brief Python version name (e.g., "python2.4") for locating
# include & library files
py_version_name = 'python' + sys.version[:3]

# include path, e.g. /usr/local/include/python2.4
py_header_path = joinpath(sys.exec_prefix, 'include', py_version_name)
env.Append(CPPPATH = py_header_path)
# verify that it works
if not conf.CheckHeader('Python.h', '<>'):
    print "Error: can't find Python.h header in", py_header_path
    Exit(1)

# add library path too if it's not in the default place
py_lib_path = None
if sys.exec_prefix != '/usr':
    py_lib_path = joinpath(sys.exec_prefix, 'lib')
elif sys.platform == 'cygwin':
    # cygwin puts the .dll in /bin for some reason
    py_lib_path = '/bin'
if py_lib_path:
    env.Append(LIBPATH = py_lib_path)
    print 'Adding', py_lib_path, 'to LIBPATH for', py_version_name
if not conf.CheckLib(py_version_name):
    print "Error: can't find Python library", py_version_name
    Exit(1)

# On Solaris you need to use libsocket for socket ops
if not conf.CheckLibWithHeader(None, 'sys/socket.h', 'C++', 'accept(0,0,0);'):
   if not conf.CheckLibWithHeader('socket', 'sys/socket.h', 'C++', 'accept(0,0,0);'):
       print "Can't find library with socket calls (e.g. accept())"
       Exit(1)

# Check for zlib.  If the check passes, libz will be automatically
# added to the LIBS environment variable.
if not conf.CheckLibWithHeader('z', 'zlib.h', 'C++','zlibVersion();'):
    print 'Error: did not find needed zlib compression library '\
          'and/or zlib.h header file.'
    print '       Please install zlib and try again.'
    Exit(1)

# Check for <fenv.h> (C99 FP environment control)
have_fenv = conf.CheckHeader('fenv.h', '<>')
if not have_fenv:
    print "Warning: Header file <fenv.h> not found."
    print "         This host has no IEEE FP rounding mode control."

# Check for mysql.
mysql_config = WhereIs('mysql_config')
have_mysql = mysql_config != None

# Check MySQL version.
if have_mysql:
    mysql_version = os.popen(mysql_config + ' --version').read()
    min_mysql_version = '4.1'
    if compare_versions(mysql_version, min_mysql_version) < 0:
        print 'Warning: MySQL', min_mysql_version, 'or newer required.'
        print '         Version', mysql_version, 'detected.'
        have_mysql = False

# Set up mysql_config commands.
if have_mysql:
    mysql_config_include = mysql_config + ' --include'
    if os.system(mysql_config_include + ' > /dev/null') != 0:
        # older mysql_config versions don't support --include, use
        # --cflags instead
        mysql_config_include = mysql_config + ' --cflags | sed s/\\\'//g'
    # This seems to work in all versions
    mysql_config_libs = mysql_config + ' --libs'

env = conf.Finish()

# Define the universe of supported ISAs
all_isa_list = [ ]
Export('all_isa_list')

# Define the universe of supported CPU models
all_cpu_list = [ ]
default_cpus = [ ]
Export('all_cpu_list', 'default_cpus')

# Sticky options get saved in the options file so they persist from
# one invocation to the next (unless overridden, in which case the new
# value becomes sticky).
sticky_opts = Options(args=ARGUMENTS)
Export('sticky_opts')

# Non-sticky options only apply to the current build.
nonsticky_opts = Options(args=ARGUMENTS)
Export('nonsticky_opts')

# Walk the tree and execute all SConsopts scripts that wil add to the
# above options
for base_dir in base_dir_list:
    for root, dirs, files in os.walk(base_dir):
        if 'SConsopts' in files:
            print "Reading", joinpath(root, 'SConsopts')
            SConscript(joinpath(root, 'SConsopts'))

all_isa_list.sort()
all_cpu_list.sort()
default_cpus.sort()

sticky_opts.AddOptions(
    EnumOption('TARGET_ISA', 'Target ISA', 'alpha', all_isa_list),
    BoolOption('FULL_SYSTEM', 'Full-system support', False),
    # There's a bug in scons 0.96.1 that causes ListOptions with list
    # values (more than one value) not to be able to be restored from
    # a saved option file.  If this causes trouble then upgrade to
    # scons 0.96.90 or later.
    ListOption('CPU_MODELS', 'CPU models', default_cpus, all_cpu_list),
    BoolOption('NO_FAST_ALLOC', 'Disable fast object allocator', False),
    BoolOption('FAST_ALLOC_DEBUG', 'Enable fast object allocator debugging',
               False),
    BoolOption('FAST_ALLOC_STATS', 'Enable fast object allocator statistics',
               False),
    BoolOption('EFENCE', 'Link with Electric Fence malloc debugger',
               False),
    BoolOption('SS_COMPATIBLE_FP',
               'Make floating-point results compatible with SimpleScalar',
               False),
    BoolOption('USE_SSE2',
               'Compile for SSE2 (-msse2) to get IEEE FP on x86 hosts',
               False),
    BoolOption('USE_MYSQL', 'Use MySQL for stats output', have_mysql),
    BoolOption('USE_FENV', 'Use <fenv.h> IEEE mode control', have_fenv),
    BoolOption('USE_CHECKER', 'Use checker for detailed CPU models', False),
    )

nonsticky_opts.AddOptions(
    BoolOption('update_ref', 'Update test reference outputs', False)
    )

# These options get exported to #defines in config/*.hh (see src/SConscript).
env.ExportOptions = ['FULL_SYSTEM', 'ALPHA_TLASER', 'USE_FENV', \
                     'USE_MYSQL', 'NO_FAST_ALLOC', 'FAST_ALLOC_DEBUG', \
                     'FAST_ALLOC_STATS', 'SS_COMPATIBLE_FP', \
                     'USE_CHECKER', 'TARGET_ISA']

# Define a handy 'no-op' action
def no_action(target, source, env):
    return 0

env.NoAction = Action(no_action, None)

###################################################
#
# Define a SCons builder for configuration flag headers.
#
###################################################

# This function generates a config header file that #defines the
# option symbol to the current option setting (0 or 1).  The source
# operands are the name of the option and a Value node containing the
# value of the option.
def build_config_file(target, source, env):
    (option, value) = [s.get_contents() for s in source]
    f = file(str(target[0]), 'w')
    print >> f, '#define', option, value
    f.close()
    return None

# Generate the message to be printed when building the config file.
def build_config_file_string(target, source, env):
    (option, value) = [s.get_contents() for s in source]
    return "Defining %s as %s in %s." % (option, value, target[0])

# Combine the two functions into a scons Action object.
config_action = Action(build_config_file, build_config_file_string)

# The emitter munges the source & target node lists to reflect what
# we're really doing.
def config_emitter(target, source, env):
    # extract option name from Builder arg
    option = str(target[0])
    # True target is config header file
    target = joinpath('config', option.lower() + '.hh')
    val = env[option]
    if isinstance(val, bool):
        # Force value to 0/1
        val = int(val)
    elif isinstance(val, str):
        val = '"' + val + '"'

    # Sources are option name & value (packaged in SCons Value nodes)
    return ([target], [Value(option), Value(val)])

config_builder = Builder(emitter = config_emitter, action = config_action)

env.Append(BUILDERS = { 'ConfigFile' : config_builder })

###################################################
#
# Define a SCons builder for copying files.  This is used by the
# Python zipfile code in src/python/SConscript, but is placed up here
# since it's potentially more generally applicable.
#
###################################################

copy_builder = Builder(action = Copy("$TARGET", "$SOURCE"))

env.Append(BUILDERS = { 'CopyFile' : copy_builder })

###################################################
#
# Define a simple SCons builder to concatenate files.
#
# Used to append the Python zip archive to the executable.
#
###################################################

concat_builder = Builder(action = Action(['cat $SOURCES > $TARGET',
                                          'chmod +x $TARGET']))

env.Append(BUILDERS = { 'Concat' : concat_builder })


# libelf build is shared across all configs in the build root.
env.SConscript('ext/libelf/SConscript',
               build_dir = joinpath(build_root, 'libelf'),
               exports = 'env')

###################################################
#
# This function is used to set up a directory with switching headers
#
###################################################

env['ALL_ISA_LIST'] = all_isa_list
def make_switching_dir(dirname, switch_headers, env):
    # Generate the header.  target[0] is the full path of the output
    # header to generate.  'source' is a dummy variable, since we get the
    # list of ISAs from env['ALL_ISA_LIST'].
    def gen_switch_hdr(target, source, env):
        fname = str(target[0])
        basename = os.path.basename(fname)
        f = open(fname, 'w')
        f.write('#include "arch/isa_specific.hh"\n')
        cond = '#if'
        for isa in all_isa_list:
            f.write('%s THE_ISA == %s_ISA\n#include "%s/%s/%s"\n'
                    % (cond, isa.upper(), dirname, isa, basename))
            cond = '#elif'
        f.write('#else\n#error "THE_ISA not set"\n#endif\n')
        f.close()
        return 0

    # String to print when generating header
    def gen_switch_hdr_string(target, source, env):
        return "Generating switch header " + str(target[0])

    # Build SCons Action object. 'varlist' specifies env vars that this
    # action depends on; when env['ALL_ISA_LIST'] changes these actions
    # should get re-executed.
    switch_hdr_action = Action(gen_switch_hdr, gen_switch_hdr_string,
                               varlist=['ALL_ISA_LIST'])

    # Instantiate actions for each header
    for hdr in switch_headers:
        env.Command(hdr, [], switch_hdr_action)
Export('make_switching_dir')

###################################################
#
# Define build environments for selected configurations.
#
###################################################

# rename base env
base_env = env

for build_path in build_paths:
    print "Building in", build_path

    # Make a copy of the build-root environment to use for this config.
    env = base_env.Copy()
    env['BUILDDIR'] = build_path

    # build_dir is the tail component of build path, and is used to
    # determine the build parameters (e.g., 'ALPHA_SE')
    (build_root, build_dir) = os.path.split(build_path)

    # Set env options according to the build directory config.
    sticky_opts.files = []
    # Options for $BUILD_ROOT/$BUILD_DIR are stored in
    # $BUILD_ROOT/options/$BUILD_DIR so you can nuke
    # $BUILD_ROOT/$BUILD_DIR without losing your options settings.
    current_opts_file = joinpath(build_root, 'options', build_dir)
    if isfile(current_opts_file):
        sticky_opts.files.append(current_opts_file)
        print "Using saved options file %s" % current_opts_file
    else:
        # Build dir-specific options file doesn't exist.

        # Make sure the directory is there so we can create it later
        opt_dir = os.path.dirname(current_opts_file)
        if not isdir(opt_dir):
            os.mkdir(opt_dir)

        # Get default build options from source tree.  Options are
        # normally determined by name of $BUILD_DIR, but can be
        # overriden by 'default=' arg on command line.
        default_opts_file = joinpath('build_opts',
                                     ARGUMENTS.get('default', build_dir))
        if isfile(default_opts_file):
            sticky_opts.files.append(default_opts_file)
            print "Options file %s not found,\n  using defaults in %s" \
                  % (current_opts_file, default_opts_file)
        else:
            print "Error: cannot find options file %s or %s" \
                  % (current_opts_file, default_opts_file)
            Exit(1)

    # Apply current option settings to env
    sticky_opts.Update(env)
    nonsticky_opts.Update(env)

    help_text += "\nSticky options for %s:\n" % build_dir \
                 + sticky_opts.GenerateHelpText(env) \
                 + "\nNon-sticky options for %s:\n" % build_dir \
                 + nonsticky_opts.GenerateHelpText(env)

    # Process option settings.

    if not have_fenv and env['USE_FENV']:
        print "Warning: <fenv.h> not available; " \
              "forcing USE_FENV to False in", build_dir + "."
        env['USE_FENV'] = False

    if not env['USE_FENV']:
        print "Warning: No IEEE FP rounding mode control in", build_dir + "."
        print "         FP results may deviate slightly from other platforms."

    if env['EFENCE']:
        env.Append(LIBS=['efence'])

    if env['USE_MYSQL']:
        if not have_mysql:
            print "Warning: MySQL not available; " \
                  "forcing USE_MYSQL to False in", build_dir + "."
            env['USE_MYSQL'] = False
        else:
            print "Compiling in", build_dir, "with MySQL support."
            env.ParseConfig(mysql_config_libs)
            env.ParseConfig(mysql_config_include)

    # Save sticky option settings back to current options file
    sticky_opts.Save(current_opts_file, env)

    if env['USE_SSE2']:
        env.Append(CCFLAGS='-msse2')

    # The src/SConscript file sets up the build rules in 'env' according
    # to the configured options.  It returns a list of environments,
    # one for each variant build (debug, opt, etc.)
    envList = SConscript('src/SConscript', build_dir = build_path,
                         exports = 'env')

    # Set up the regression tests for each build.
    for e in envList:
        SConscript('tests/SConscript',
                   build_dir = joinpath(build_path, 'tests', e.Label),
                   exports = { 'env' : e }, duplicate = False)

Help(help_text)


###################################################
#
# Let SCons do its thing.  At this point SCons will use the defined
# build environments to build the requested targets.
#
###################################################