759ff4b910
build/SConstruct: Include Ozone CPU models. cpu/cpu_models.py: Include OzoneCPU models. --HG-- extra : convert_revision : 51a016c216cacd2cc613eed79653026c2edda4b3
421 lines
16 KiB
Python
421 lines
16 KiB
Python
# -*- mode:python -*-
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# Copyright (c) 2004-2005 The Regents of The University of Michigan
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions are
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# met: redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer;
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# redistributions in binary form must reproduce the above copyright
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# notice, this list of conditions and the following disclaimer in the
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# documentation and/or other materials provided with the distribution;
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# neither the name of the copyright holders nor the names of its
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# contributors may be used to endorse or promote products derived from
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# this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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###################################################
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#
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# SCons top-level build description (SConstruct) file.
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#
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# To build M5, you need a directory with three things:
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# 1. A copy of this file (named SConstruct).
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# 2. A link named 'm5' to the top of the M5 simulator source tree.
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# 3. A link named 'ext' to the top of the M5 external source tree.
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#
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# Then type 'scons' to build the default configuration (see below), or
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# 'scons <CONFIG>/<binary>' to build some other configuration (e.g.,
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# 'ALPHA_FS/m5.opt' for the optimized full-system version).
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#
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###################################################
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# Python library imports
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import sys
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import os
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# Check for recent-enough Python and SCons versions
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EnsurePythonVersion(2,3)
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EnsureSConsVersion(0,96)
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# The absolute path to the current directory (where this file lives).
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ROOT = Dir('.').abspath
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# Paths to the M5 and external source trees (local symlinks).
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SRCDIR = os.path.join(ROOT, 'm5')
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EXT_SRCDIR = os.path.join(ROOT, 'ext')
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# Check for 'm5' and 'ext' links, die if they don't exist.
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if not os.path.isdir(SRCDIR):
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print "Error: '%s' must be a link to the M5 source tree." % SRCDIR
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Exit(1)
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if not os.path.isdir('ext'):
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print "Error: '%s' must be a link to the M5 external source tree." \
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% EXT_SRCDIR
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Exit(1)
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# tell python where to find m5 python code
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sys.path.append(os.path.join(SRCDIR, 'python'))
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###################################################
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#
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# Figure out which configurations to set up.
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#
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#
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# It's prohibitive to do all the combinations of base configurations
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# and options, so we have to infer which ones the user wants.
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#
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# 1. If there are command-line targets, the configuration(s) are inferred
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# from the directories of those targets. If scons was invoked from a
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# subdirectory (using 'scons -u'), those targets have to be
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# interpreted relative to that subdirectory.
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#
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# 2. If there are no command-line targets, and scons was invoked from a
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# subdirectory (using 'scons -u'), the configuration is inferred from
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# the name of the subdirectory.
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#
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# 3. If there are no command-line targets and scons was invoked from
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# the root build directory, a default configuration is used. The
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# built-in default is ALPHA_SE, but this can be overridden by setting the
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# M5_DEFAULT_CONFIG shell environment veriable.
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#
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# In cases 2 & 3, the specific file target defaults to 'm5.debug', but
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# this can be overridden by setting the M5_DEFAULT_BINARY shell
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# environment veriable.
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#
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###################################################
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# Find default configuration & binary.
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default_config = os.environ.get('M5_DEFAULT_CONFIG', 'ALPHA_SE')
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default_binary = os.environ.get('M5_DEFAULT_BINARY', 'm5.debug')
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# Ask SCons which directory it was invoked from. If you invoke SCons
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# from a subdirectory you must use the '-u' flag.
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launch_dir = GetLaunchDir()
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# Build a list 'my_targets' of all the targets relative to ROOT.
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if launch_dir == ROOT:
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# invoked from root build dir
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if len(COMMAND_LINE_TARGETS) != 0:
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# easy: use specified targets as is
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my_targets = COMMAND_LINE_TARGETS
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else:
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# default target (ALPHA_SE/m5.debug, unless overridden)
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target = os.path.join(default_config, default_binary)
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my_targets = [target]
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Default(target)
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else:
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# invoked from subdirectory
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if not launch_dir.startswith(ROOT):
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print "Error: launch dir (%s) not a subdirectory of ROOT (%s)!" \
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(launch_dir, ROOT)
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Exit(1)
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# make launch_dir relative to ROOT (strip ROOT plus slash off front)
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launch_dir = launch_dir[len(ROOT)+1:]
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if len(COMMAND_LINE_TARGETS) != 0:
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# make specified targets relative to ROOT
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my_targets = map(lambda x: os.path.join(launch_dir, x),
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COMMAND_LINE_TARGETS)
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else:
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# build default binary (m5.debug, unless overridden) using the
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# config inferred by the invocation directory (the first
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# subdirectory after ROOT)
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target = os.path.join(launch_dir.split('/')[0], default_binary)
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my_targets = [target]
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Default(target)
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# Normalize target paths (gets rid of '..' in the middle, etc.)
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my_targets = map(os.path.normpath, my_targets)
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# Generate a list of the unique configs that the collected targets reference.
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build_dirs = []
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for t in my_targets:
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dir = t.split('/')[0]
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if dir not in build_dirs:
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build_dirs.append(dir)
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###################################################
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#
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# Set up the default build environment. This environment is copied
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# and modified according to each selected configuration.
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#
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###################################################
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env = Environment(ENV = os.environ, # inherit user's environment vars
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ROOT = ROOT,
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SRCDIR = SRCDIR,
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EXT_SRCDIR = EXT_SRCDIR)
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env.SConsignFile("sconsign")
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# I waffle on this setting... it does avoid a few painful but
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# unnecessary builds, but it also seems to make trivial builds take
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# noticeably longer.
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if False:
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env.TargetSignatures('content')
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# M5_EXT is used by isa_parser.py to find the PLY package.
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env.Append(ENV = { 'M5_EXT' : EXT_SRCDIR })
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# Set up default C++ compiler flags
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env.Append(CCFLAGS='-pipe')
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env.Append(CCFLAGS='-fno-strict-aliasing')
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env.Append(CCFLAGS=Split('-Wall -Wno-sign-compare -Werror -Wundef'))
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if sys.platform == 'cygwin':
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# cygwin has some header file issues...
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env.Append(CCFLAGS=Split("-Wno-uninitialized"))
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env.Append(CPPPATH=[os.path.join(EXT_SRCDIR + '/dnet')])
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# Default libraries
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env.Append(LIBS=['z'])
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# Platform-specific configuration
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conf = Configure(env)
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# Check for <fenv.h> (C99 FP environment control)
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have_fenv = conf.CheckHeader('fenv.h', '<>')
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if not have_fenv:
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print "Warning: Header file <fenv.h> not found."
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print " This host has no IEEE FP rounding mode control."
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# Check for mysql.
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mysql_config = WhereIs('mysql_config')
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have_mysql = mysql_config != None
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# Check MySQL version.
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if have_mysql:
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mysql_version = os.popen(mysql_config + ' --version').read()
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mysql_version = mysql_version.split('.')
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mysql_major = int(mysql_version[0])
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mysql_minor = int(mysql_version[1])
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# This version check is probably overly conservative, but it deals
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# with the versions we have installed.
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if mysql_major < 4 or (mysql_major == 4 and mysql_minor < 1):
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print "Warning: MySQL v4.1 or newer required."
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have_mysql = False
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# Set up mysql_config commands.
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if have_mysql:
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mysql_config_include = mysql_config + ' --include'
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if os.system(mysql_config_include + ' > /dev/null') != 0:
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# older mysql_config versions don't support --include, use
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# --cflags instead
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mysql_config_include = mysql_config + ' --cflags | sed s/\\\'//g'
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# This seems to work in all versions
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mysql_config_libs = mysql_config + ' --libs'
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env = conf.Finish()
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# Define the universe of supported ISAs
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env['ALL_ISA_LIST'] = ['alpha', 'sparc', 'mips']
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# Define the universe of supported CPU models
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env['ALL_CPU_LIST'] = ['SimpleCPU', 'FastCPU', 'FullCPU', 'AlphaFullCPU',
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'OzoneSimpleCPU', 'OzoneCPU']
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# Sticky options get saved in the options file so they persist from
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# one invocation to the next (unless overridden, in which case the new
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# value becomes sticky).
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sticky_opts = Options(args=ARGUMENTS)
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sticky_opts.AddOptions(
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EnumOption('TARGET_ISA', 'Target ISA', 'alpha', env['ALL_ISA_LIST']),
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BoolOption('FULL_SYSTEM', 'Full-system support', False),
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BoolOption('ALPHA_TLASER',
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'Model Alpha TurboLaser platform (vs. Tsunami)', False),
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BoolOption('NO_FAST_ALLOC', 'Disable fast object allocator', False),
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BoolOption('EFENCE', 'Link with Electric Fence malloc debugger',
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False),
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BoolOption('SS_COMPATIBLE_FP',
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'Make floating-point results compatible with SimpleScalar',
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False),
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BoolOption('USE_SSE2',
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'Compile for SSE2 (-msse2) to get IEEE FP on x86 hosts',
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False),
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BoolOption('STATS_BINNING', 'Bin statistics by CPU mode', have_mysql),
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BoolOption('USE_MYSQL', 'Use MySQL for stats output', have_mysql),
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BoolOption('USE_FENV', 'Use <fenv.h> IEEE mode control', have_fenv),
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('CC', 'C compiler', os.environ.get('CC', env['CC'])),
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('CXX', 'C++ compiler', os.environ.get('CXX', env['CXX'])),
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BoolOption('BATCH', 'Use batch pool for build and tests', False),
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('BATCH_CMD', 'Batch pool submission command name', 'qdo')
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)
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# Non-sticky options only apply to the current build.
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nonsticky_opts = Options(args=ARGUMENTS)
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nonsticky_opts.AddOptions(
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# This really should be a sticky option, but there's a bug in
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# scons 0.96.1 that causes ListOptions not to be able to be
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# restored from a saved option file. It looks like this is fixed
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# in 0.96.9, but there's a different bug in that version that means we
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# can't just upgrade.
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ListOption('CPU_MODELS', 'CPU models', 'all', env['ALL_CPU_LIST']),
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BoolOption('update_ref', 'Update test reference outputs', False)
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)
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# These options get exported to #defines in config/*.hh (see m5/SConscript).
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env.ExportOptions = ['FULL_SYSTEM', 'ALPHA_TLASER', 'USE_FENV', \
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'USE_MYSQL', 'NO_FAST_ALLOC', 'SS_COMPATIBLE_FP', \
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'STATS_BINNING']
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# Define a handy 'no-op' action
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def no_action(target, source, env):
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return 0
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env.NoAction = Action(no_action, None)
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# libelf build is described in its own SConscript file.
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# SConscript-global is the build in build/libelf shared among all
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# configs.
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env.SConscript('m5/libelf/SConscript-global', exports = 'env')
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###################################################
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#
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# Define a SCons builder for configuration flag headers.
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#
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###################################################
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# This function generates a config header file that #defines the
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# option symbol to the current option setting (0 or 1). The source
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# operands are the name of the option and a Value node containing the
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# value of the option.
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def build_config_file(target, source, env):
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(option, value) = [s.get_contents() for s in source]
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f = file(str(target[0]), 'w')
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print >> f, '#define', option, value
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f.close()
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return None
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# Generate the message to be printed when building the config file.
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def build_config_file_string(target, source, env):
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(option, value) = [s.get_contents() for s in source]
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return "Defining %s as %s in %s." % (option, value, target[0])
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# Combine the two functions into a scons Action object.
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config_action = Action(build_config_file, build_config_file_string)
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# The emitter munges the source & target node lists to reflect what
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# we're really doing.
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def config_emitter(target, source, env):
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# extract option name from Builder arg
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option = str(target[0])
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# True target is config header file
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target = os.path.join('config', option.lower() + '.hh')
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# Force value to 0/1 even if it's a Python bool
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val = int(eval(str(env[option])))
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# Sources are option name & value (packaged in SCons Value nodes)
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return ([target], [Value(option), Value(val)])
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config_builder = Builder(emitter = config_emitter, action = config_action)
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env.Append(BUILDERS = { 'ConfigFile' : config_builder })
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###################################################
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#
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# Define build environments for selected configurations.
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#
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###################################################
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# rename base env
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base_env = env
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for build_dir in build_dirs:
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# Make a copy of the default environment to use for this config.
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env = base_env.Copy()
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# Record what build_dir was in the environment
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env.Append(BUILD_DIR=build_dir);
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# Set env according to the build directory config.
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sticky_opts.files = []
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# Name of default options file is taken from 'default=' on command
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# line if set, otherwise name of build dir.
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default_options_file = os.path.join('default_options',
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ARGUMENTS.get('default', build_dir))
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if os.path.isfile(default_options_file):
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sticky_opts.files.append(default_options_file)
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current_options_file = os.path.join('options', build_dir)
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if os.path.isfile(current_options_file):
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sticky_opts.files.append(current_options_file)
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else:
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# if file doesn't exist, make sure at least the directory is there
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# so we can create it later
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opt_dir = os.path.dirname(current_options_file)
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if not os.path.isdir(opt_dir):
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os.mkdir(opt_dir)
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if not sticky_opts.files:
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print "%s: No options file found in options, using defaults." \
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% build_dir
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# Apply current option settings to env
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sticky_opts.Update(env)
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nonsticky_opts.Update(env)
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# Process option settings.
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if not have_fenv and env['USE_FENV']:
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print "Warning: <fenv.h> not available; " \
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"forcing USE_FENV to False in", build_dir + "."
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env['USE_FENV'] = False
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if not env['USE_FENV']:
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print "Warning: No IEEE FP rounding mode control in", build_dir + "."
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print " FP results may deviate slightly from other platforms."
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if env['EFENCE']:
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env.Append(LIBS=['efence'])
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if env['USE_MYSQL']:
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if not have_mysql:
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print "Warning: MySQL not available; " \
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"forcing USE_MYSQL to False in", build_dir + "."
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env['USE_MYSQL'] = False
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else:
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print "Compiling in", build_dir, "with MySQL support."
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env.ParseConfig(mysql_config_libs)
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env.ParseConfig(mysql_config_include)
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# Save sticky option settings back to current options file
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sticky_opts.Save(current_options_file, env)
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# Do this after we save setting back, or else we'll tack on an
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# extra 'qdo' every time we run scons.
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if env['BATCH']:
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env['CC'] = env['BATCH_CMD'] + ' ' + env['CC']
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env['CXX'] = env['BATCH_CMD'] + ' ' + env['CXX']
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if env['USE_SSE2']:
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env.Append(CCFLAGS='-msse2')
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# The m5/SConscript file sets up the build rules in 'env' according
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# to the configured options. It returns a list of environments,
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# one for each variant build (debug, opt, etc.)
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envList = SConscript('m5/SConscript', build_dir = build_dir,
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exports = 'env', duplicate = False)
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# Set up the regression tests for each build.
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for e in envList:
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SConscript('m5-test/SConscript',
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build_dir = os.path.join(build_dir, 'test', e.Label),
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exports = { 'env' : e }, duplicate = False)
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###################################################
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#
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# Let SCons do its thing. At this point SCons will use the defined
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# build environments to build the requested targets.
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#
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###################################################
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