# -*- makefile -*-
#
# comm.gmk: COMMON GNUMAKEFILE FRAGMENT
#
# $Id: //info.ravenbrook.com/project/mps/version/1.112/code/comm.gmk#1 $
# Copyright (c) 2001-2013 Ravenbrook Limited. See end of file for license.
#
# DESCRIPTION
#
# This makefile fragment is included in more specific makefiles for
# platforms which use GNU make.
#
# PARAMETERS
#
# Assumes the following variables and definitions:
# EXTRA_TARGETS a list of extra targets to build
# CFLAGSCOMPILER a list of flags for all compilations
# CFLAGSSTRICT a list of flags for almost all compilations
# CFLAGSLAX a list of flags for compilations which can't be as
# strict (e.g. because they have to include a third-
# party header file that isn't -ansi -pedantic).
# CFLAGSDEBUG a list of flags for compilations with maximum debug
# information, and any optimization possible
# CFLAGSOPT a list of flags for compilations with maximum
# optimization, and any debug info possible
# CC the command for the C compiler
# LINKFLAGS a list of flags passed to the linker
# ARFLAGSPFM platform-specific flags for ar
# RANLIB the command to index a library (default: none needed)
# gendep optionally defined to be a command sequence for
# generating the dependency file (.d) from a C file (.c);
# it is used in a rule of the form:
# $(PFM)/$(VARIETY)/%.d: %.c
# PFM platform code, e.g. "sus8gc"
# LIBS extra libraries to include in tests (usually "-lm")
# NOISY if defined and non-empty, causes commands to be emitted
# MPMPF platform-dependent C sources for the "mpm" part
# MPMS assembler sources for the "mpm" part (.s files)
# MPMPS pre-processor assembler sources for the "mpm" part (.S files)
#
# %%PART: When adding a new part, add a new parameter above for the
# files included in the part.
#
# EDITING
#
# To add new targets, varieties, and parts:
# Search for the string "%%TARGET", "%%VARIETY", or "%%PART" in this
# makefile and follow the instructions. If you're adding a part, you'll
# have to change the makefiles for all the platforms which use this
# makefile to define the source list for that part, and the GNUmakefile
# to include a recursive call to the name of that part.
#
# CHECK PARAMETERS
#
# Old versions of GNU make don't have the $(error) function, but lines
# starting "error" cause it to exit with an error. [These only test to
# see whether the symbol is defined. We could be more thorough and
# test the syntax and content. -- richard 1995-09-07]
ifndef CC
error "comm.gmk: CC not defined"
endif
ifndef CFLAGSCOMPILER
error "comm.gmk: CFLAGSCOMPILER not defined"
endif
ifndef CFLAGSDEBUG
error "comm.gmk: CFLAGSDEBUG not defined"
endif
ifndef CFLAGSOPT
error "comm.gmk: CFLAGSOPT not defined"
endif
# EXTRA TARGETS
#
# Don't build mpseventsql by default (might not have sqlite3 installed),
# but do build mpseventcnv and mpseventtxt.
EXTRA_TARGETS ?= mpseventcnv mpseventtxt
#
# %%PART: When adding a new part, add checks for the parameter with the
# sources for the new part.
ifndef PFM
error "comm.gmk: PFM not defined"
endif
ifndef MPMPF
error "comm.gmk: MPMPF not defined"
endif
# DECLARATIONS
ifdef NOISY
ECHO = :
else
.SILENT:
ECHO = echo
endif
.PHONY: phony
# C FLAGS
# These flags are included in all compilations.
# Avoid using PFMDEFS in platform makefiles, as they prevent the MPS being
# built with a simple command like "cc -c mps.c".
CFLAGSCOMMON = $(PFMDEFS) $(CFLAGSCOMPILER) $(CFLAGSCOMPILERSTRICT)
CFLAGSCOMMONLAX = $(PFMDEFS) $(CFLAGSCOMPILER) $(CFLAGSCOMPILERLAX)
# %%VARIETY: When adding a new variety, define a macro containing the set
# of flags for the new variety.
# These flags are added to compilations for the indicated variety.
CFRASH = -DCONFIG_VAR_RASH -DNDEBUG $(CFLAGSOPT)
CFHOT = -DCONFIG_VAR_HOT -DNDEBUG $(CFLAGSOPT)
CFCOOL = -DCONFIG_VAR_COOL $(CFLAGSDEBUG)
# Bind CFLAGS to the appropriate set of flags for the variety.
# %%VARIETY: When adding a new variety, add a test for the variety and set
# CFLAGS here.
ifeq ($(VARIETY),rash)
CFLAGS=$(CFLAGSCOMMON) $(CFRASH)
CFLAGSLAX=$(CFLAGSCOMMONLAX) $(CFRASH)
else
ifeq ($(VARIETY),hot)
CFLAGS=$(CFLAGSCOMMON) $(CFHOT)
CFLAGSLAX=$(CFLAGSCOMMONLAX) $(CFHOT)
else
ifeq ($(VARIETY),cool)
CFLAGS=$(CFLAGSCOMMON) $(CFCOOL)
CFLAGSLAX=$(CFLAGSCOMMONLAX) $(CFCOOL)
else
ifneq ($(VARIETY),)
$(error Variety "$(VARIETY)" not recognized: must be rash/hot/cool)
endif
endif
endif
endif
ARFLAGS=rc$(ARFLAGSPFM)
# == Common definitions ==
# %%PART: When adding a new part, add it here, unless it's platform-specific
# These values are defined here because they have no variation between
# platforms.
AMC = poolamc.c
AMS = poolams.c poolamsi.c
AWL = poolawl.c
LO = poollo.c
SNC = poolsnc.c
POOLN = pooln.c
MV2 = poolmv2.c
MVFF = poolmvff.c
TESTLIB = testlib.c
FMTDY = fmtdy.c fmtno.c
FMTDYTST = fmtdy.c fmtno.c fmtdytst.c
FMTHETST = fmthe.c fmtdy.c fmtno.c fmtdytst.c
PLINTH = mpsliban.c mpsioan.c
EVENTPROC = eventcnv.c table.c
MPMCOMMON = abq.c arena.c arenacl.c arenavm.c arg.c boot.c bt.c \
buffer.c cbs.c dbgpool.c dbgpooli.c event.c format.c \
freelist.c global.c ld.c locus.c message.c meter.c mpm.c mpsi.c \
pool.c poolabs.c poolmfs.c poolmrg.c poolmv.c protocol.c range.c \
ref.c reserv.c ring.c root.c sac.c seg.c shield.c splay.c ss.c \
table.c trace.c traceanc.c tract.c walk.c
MPM = $(MPMCOMMON) $(MPMPF)
# These map the source file lists onto object files and dependency files
# in the platform/variety directory.
#
# %%PART: When adding a new part, add a new macro which expands to the files
# included in the part.
ifdef VARIETY
MPMOBJ = $(MPM:%.c=$(PFM)/$(VARIETY)/%.o) \
$(MPMS:%.s=$(PFM)/$(VARIETY)/%.o)
MPMDEP = $(MPM:%.c=$(PFM)/$(VARIETY)/%.d)
AMCOBJ = $(AMC:%.c=$(PFM)/$(VARIETY)/%.o)
AMCDEP = $(AMC:%.c=$(PFM)/$(VARIETY)/%.d)
AMSOBJ = $(AMS:%.c=$(PFM)/$(VARIETY)/%.o)
AMSDEP = $(AMS:%.c=$(PFM)/$(VARIETY)/%.d)
AWLOBJ = $(AWL:%.c=$(PFM)/$(VARIETY)/%.o)
AWLDEP = $(AWL:%.c=$(PFM)/$(VARIETY)/%.d)
LOOBJ = $(LO:%.c=$(PFM)/$(VARIETY)/%.o)
LODEP = $(LO:%.c=$(PFM)/$(VARIETY)/%.d)
SNCOBJ = $(SNC:%.c=$(PFM)/$(VARIETY)/%.o)
SNCDEP = $(SNC:%.c=$(PFM)/$(VARIETY)/%.d)
POOLNOBJ = $(POOLN:%.c=$(PFM)/$(VARIETY)/%.o)
POOLNDEP = $(POOLN:%.c=$(PFM)/$(VARIETY)/%.d)
MV2OBJ = $(MV2:%.c=$(PFM)/$(VARIETY)/%.o)
MV2DEP = $(MV2:%.c=$(PFM)/$(VARIETY)/%.d)
MVFFOBJ = $(MVFF:%.c=$(PFM)/$(VARIETY)/%.o)
MVFFDEP = $(MVFF:%.c=$(PFM)/$(VARIETY)/%.d)
TESTLIBOBJ = $(TESTLIB:%.c=$(PFM)/$(VARIETY)/%.o)
TESTLIBDEP = $(TESTLIB:%.c=$(PFM)/$(VARIETY)/%.d)
FMTDYOBJ = $(FMTDY:%.c=$(PFM)/$(VARIETY)/%.o)
FMTDYDEP = $(FMTDY:%.c=$(PFM)/$(VARIETY)/%.d)
FMTDYTSTOBJ = $(FMTDYTST:%.c=$(PFM)/$(VARIETY)/%.o)
FMTHETSTOBJ = $(FMTHETST:%.c=$(PFM)/$(VARIETY)/%.o)
FMTHETSTDEP = $(FMTHETST:%.c=$(PFM)/$(VARIETY)/%.d)
PLINTHOBJ = $(PLINTH:%.c=$(PFM)/$(VARIETY)/%.o)
PLINTHDEP = $(PLINTH:%.c=$(PFM)/$(VARIETY)/%.d)
EVENTPROCOBJ = $(EVENTPROC:%.c=$(PFM)/$(VARIETY)/%.o)
EVENTPROCDEP = $(EVENTPROC:%.c=$(PFM)/$(VARIETY)/%.d)
endif
# == Test cases ==
#
# %%TARGET: When adding a new target, add it to one of the variables
# in this section. Library components go in LIB_TARGETS.
LIB_TARGETS=mps.a mpsplan.a
# If it is suitable for running regularly (for example, after every
# build) as an automated test case, add it to AUTO_TEST_TARGETS.
AUTO_TEST_TARGETS=abqtest amcss amcsshe amcssth amsss amssshe apss \
arenacv awlut awluthe awlutth btcv exposet0 expt825 fbmtest finalcv \
finaltest fotest lockcov locv messtest mpmss mpsicv mv2test \
poolncv qs sacss segsmss steptest walkt0 zmess
# If it is not runnable as an automated test case, but is buildable,
# add it to OTHER_TEST_TARGETS with a note.
#
# bttest and teletest -- interactive and so cannot be run unattended.
# zcoll -- takes too long to be useful as a regularly run smoke test.
OTHER_TEST_TARGETS=bttest teletest zcoll
# This target records programs that we were once able to build but
# can't at the moment:
#
# replay -- depends on the EPVM pool.
UNBUILDABLE_TARGETS=replay
ALL_TARGETS=$(LIB_TARGETS) $(AUTO_TEST_TARGETS) $(OTHER_TEST_TARGETS) $(EXTRA_TARGETS)
# == Pseudo-targets ==
all: $(ALL_TARGETS)
# Run the automated tests.
testrun: $(AUTO_TEST_TARGETS)
../tool/testrun.sh $(addprefix $(PFM)/$(VARIETY)/,$(AUTO_TEST_TARGETS))
# These convenience targets allow one to type "make foo" to build target
# foo in selected varieties (or none, for the latter rule).
$(ALL_TARGETS): phony
ifdef VARIETY
$(MAKE) -f $(PFM).gmk TARGET=$@ variety
else
$(MAKE) -f $(PFM).gmk TARGET=$@ target
endif
# "clean" removes the directory containing the build results for the
# platform.
clean: phony
$(ECHO) "$(PFM): $@"
rm -rf "$(PFM)"
# "target" builds some varieties of the target named in the TARGET macro.
# %%VARIETY: When adding a new target, optionally add a recursive make call
# for the new variety, if it should be built by default. It probably
# shouldn't without a product design decision and an update of the readme
# and build manual!
ifdef TARGET
ifndef VARIETY
target: phony
$(MAKE) -f $(PFM).gmk VARIETY=hot variety
$(MAKE) -f $(PFM).gmk VARIETY=cool variety
endif
endif
# "variety" builds the target named in the TARGET macro using the
# variety named in the VARIETY macro.
ifdef VARIETY
ifdef TARGET
variety: $(PFM)/$(VARIETY)/$(TARGET)
endif
endif
# THE MPS LIBRARY
#
# The MPS library is built in two ways:
#
# 1. In the usual way, from a pile of object files compiled from their
# corresponding sources.
#
# 2. From mps.c, which effectively concatenates all the sources, allowing
# important global optimisation and inlining to occur.
#
# We mostly use the method (2), because it is fast to compile and execute.
# But we use method (1) for some varieties to ensure correctness of
# code (linkage errors are masked by (2)) and to maintain a correct list
# of source files in case method (2) won't work on some future constrained
# platform.
#
# %%VARIETY: When adding a new variety, add a rule for how to build the
# MPS library for the variety.
$(PFM)/rash/mps.a: $(PFM)/rash/mps.o
$(PFM)/hot/mps.a: $(PFM)/hot/mps.o
$(PFM)/cool/mps.a: \
$(MPMOBJ) $(AMCOBJ) $(AMSOBJ) $(AWLOBJ) $(LOOBJ) $(SNCOBJ) \
$(MV2OBJ) $(MVFFOBJ) $(PLINTHOBJ) $(POOLNOBJ)
# OTHER GENUINE TARGETS
#
# Each line defines an executable or library target to be built and the
# object files it is built from. These lines add dependencies to the
# generic rules below, and should not include commands to execute.
#
# %%TARGET: When adding a new target, add the dependencies for the new target
# here.
ifdef VARIETY
$(PFM)/$(VARIETY)/abqtest: $(PFM)/$(VARIETY)/abqtest.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/amcss: $(PFM)/$(VARIETY)/amcss.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/amcsshe: $(PFM)/$(VARIETY)/amcsshe.o \
$(FMTHETSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/amcssth: $(PFM)/$(VARIETY)/amcssth.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/amsss: $(PFM)/$(VARIETY)/amsss.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/amssshe: $(PFM)/$(VARIETY)/amssshe.o \
$(FMTHETSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/apss: $(PFM)/$(VARIETY)/apss.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/arenacv: $(PFM)/$(VARIETY)/arenacv.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/awlut: $(PFM)/$(VARIETY)/awlut.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/awluthe: $(PFM)/$(VARIETY)/awluthe.o \
$(FMTHETSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/awlutth: $(PFM)/$(VARIETY)/awlutth.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/btcv: $(PFM)/$(VARIETY)/btcv.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/bttest: $(PFM)/$(VARIETY)/bttest.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/exposet0: $(PFM)/$(VARIETY)/exposet0.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/expt825: $(PFM)/$(VARIETY)/expt825.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/fbmtest: $(PFM)/$(VARIETY)/fbmtest.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/finalcv: $(PFM)/$(VARIETY)/finalcv.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/finaltest: $(PFM)/$(VARIETY)/finaltest.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/fotest: $(PFM)/$(VARIETY)/fotest.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/lockcov: $(PFM)/$(VARIETY)/lockcov.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/locv: $(PFM)/$(VARIETY)/locv.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/messtest: $(PFM)/$(VARIETY)/messtest.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/mpmss: $(PFM)/$(VARIETY)/mpmss.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/mpsicv: $(PFM)/$(VARIETY)/mpsicv.o \
$(FMTDYTSTOBJ) $(FMTHETSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/mv2test: $(PFM)/$(VARIETY)/mv2test.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/poolncv: $(PFM)/$(VARIETY)/poolncv.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/qs: $(PFM)/$(VARIETY)/qs.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/sacss: $(PFM)/$(VARIETY)/sacss.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/segsmss: $(PFM)/$(VARIETY)/segsmss.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/teletest: $(PFM)/$(VARIETY)/teletest.o \
$(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/steptest: $(PFM)/$(VARIETY)/steptest.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/walkt0: $(PFM)/$(VARIETY)/walkt0.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/zcoll: $(PFM)/$(VARIETY)/zcoll.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/zmess: $(PFM)/$(VARIETY)/zmess.o \
$(FMTDYTSTOBJ) $(TESTLIBOBJ) $(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/mpseventcnv: $(PFM)/$(VARIETY)/eventcnv.o \
$(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/mpseventtxt: $(PFM)/$(VARIETY)/eventtxt.o \
$(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/mpseventsql: $(PFM)/$(VARIETY)/eventsql.o \
$(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/replay: $(PFM)/$(VARIETY)/replay.o \
$(PFM)/$(VARIETY)/eventrep.o \
$(PFM)/$(VARIETY)/table.o \
$(PFM)/$(VARIETY)/mps.a
$(PFM)/$(VARIETY)/mpsplan.a: $(PLINTHOBJ)
endif
# GENERIC RULES
#
# These generate build output in the <pfm>/<variety> directory.
# Object files
define run-cc
$(ECHO) "$(PFM): $@"
mkdir -p $(PFM)
mkdir -p $(PFM)/$(VARIETY)
$(CC) $(CFLAGS) -c -o $@ $<
endef
define run-cc-lax
$(ECHO) "$(PFM): $@ - compiling with lax flags."
mkdir -p $(PFM)
mkdir -p $(PFM)/$(VARIETY)
$(CC) $(CFLAGSLAX) -c -o $@ $<
endef
# .rule.c-to-o:
$(PFM)/$(VARIETY)/%.o: %.c
$(run-cc)
$(PFM)/$(VARIETY)/eventsql.o: eventsql.c
$(run-cc-lax)
$(PFM)/$(VARIETY)/%.o: %.s
$(run-cc)
$(PFM)/$(VARIETY)/%.o: %.S
$(run-cc)
# Dependencies
#
# These are included into _this_ makefile (see below). GNU make does the
# right thing as long as it knows how to make the dependency files before
# including them.
ifdef gendep
$(PFM)/$(VARIETY)/%.d: %.c
$(ECHO) "$(PFM): $@"
mkdir -p $(PFM)
mkdir -p $(PFM)/$(VARIETY)
$(gendep)
ifdef VARIETY
ifdef TARGET
# %%VARIETY: When adding a new variety, add the dependencies files for it
# here.
ifeq ($(VARIETY),rash)
include $(PFM)/$(VARIETY)/mps.d
else
ifeq ($(VARIETY),hot)
include $(PFM)/$(VARIETY)/mps.d
else
# %%PART: When adding a new part, add the dependency file macro for the new
# part here.
include $(MPMDEP) $(AMSDEP) $(AMCDEP) $(LODEP) \
$(AWLDEP) $(POOLNDEP) $(TESTLIBDEP) $(FMTDYDEP) $(FMTHETSTDEP) \
$(PLINTHDEP) $(EVENTPROCDEP)
endif
endif
endif
endif
endif
# Library
ifndef RANLIB
RANLIB = :
endif
$(PFM)/$(VARIETY)/%.a:
$(ECHO) "$(PFM): $@"
rm -f $@
$(CC) $(CFLAGS) -c -o $(PFM)/$(VARIETY)/version.o version.c
$(AR) $(ARFLAGS) $@ $^ $(PFM)/$(VARIETY)/version.o
$(RANLIB) $@
# Executable
$(PFM)/$(VARIETY)/%:
$(ECHO) "$(PFM): $@"
$(CC) $(CFLAGS) $(LINKFLAGS) -o $@ $^ $(LIBS)
$(PFM)/$(VARIETY)/mpseventsql:
$(ECHO) "$(PFM): $@"
$(CC) $(CFLAGS) $(LINKFLAGS) -o $@ $^ $(LIBS) -lsqlite3
# Special targets for development
# Currently FreeBSD 7 GCC 4.2.1 is the best platform we have for warning
# us about strict aliasing rule violations caused by type puns. This
# target reveals them, and produces an assembler output file that can be
# examined to see if they're actually dangerous. RB 2012-09-07
find-puns: phony
{ echo '#include "mps.c"'; echo '#include "fmtdy.c"'; } | \
gcc -S -fverbose-asm -ansi -pedantic -Wall -Wstrict-aliasing=2 -O3 -x c -o pun.s -
# C. COPYRIGHT AND LICENSE
#
# Copyright (c) 2001-2013 Ravenbrook Limited <http://www.ravenbrook.com/>.
# All rights reserved. This is an open source license. Contact
# Ravenbrook for commercial licensing options.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
#
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
#
# 2. 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.
#
# 3. Redistributions in any form must be accompanied by information on how
# to obtain complete source code for this software and any accompanying
# software that uses this software. The source code must either be
# included in the distribution or be available for no more than the cost
# of distribution plus a nominal fee, and must be freely redistributable
# under reasonable conditions. For an executable file, complete source
# code means the source code for all modules it contains. It does not
# include source code for modules or files that typically accompany the
# major components of the operating system on which the executable file
# runs.
#
# 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, FITNESS FOR A PARTICULAR
# PURPOSE, OR NON-INFRINGEMENT, ARE DISCLAIMED. IN NO EVENT SHALL THE
# COPYRIGHT HOLDERS AND 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.