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##===- llvm-test/Makefile.programs -------------------------*- Makefile -*-===##
#
# This makefile contains all of the makefile machinery that is common to
# building stuff in this directory. This script can be used in two
# different ways. The main job of this is to take executables for the following
# targets:
#
# 1. The native platform compiler
# 2. LLVM Bytecode Compiler + LLI interpreter (if ENABLE_LLI is enabled)
# 3. LLVM Bytecode Compiler + LLC static compiler
# 4. LLVM Bytecode Compiler + C Backend + Native Sun Compiler
# 5. LLVM Bytecode Compiler + LLI Just-In-Time Compiler
#
# Running them, and then diffing the output. If there are any failures, they
# are flagged. The other mode is used in conjunction with the TEST=<testname>
# argument on the make command line. In this case, a Makefile.TEST.<testname>
# makefile is used to run tests on the program (see below).
#
# Input to this makefile should be the PROGRAMS_TO_TEST variable, which contains
# a list of programs that should be run. The makefile can also optionally
# specify a STDIN_FILENAME variable, which contains a filename that is piped
# into the program as it is being executed.
#
# FIXME: There should be a way to specify the command line for a program
#
##===----------------------------------------------------------------------===##
#
# Running Custom Tests
#
# This makefile provides facilities for defining custom tests that are to be run
# on all of the programs in the test suite. In order to define one of these
# tests, create a llvm-test/TEST.<testname>.Makefile file. This file
# should define a rule 'test.<testname>.%' which is run once for each program in
# the suite (the % passed in is the program name). For a simple example, see
# Makefile.TEST.example.
#
##===----------------------------------------------------------------------===##
# Dependencies on header files need to be determined explicitly because
# we do not automatically compute dependencies
INCLUDES := $(ExtraHeaders) $(wildcard $(SourceDir)/*.h)
include $(LEVEL)/Makefile.tests
.PRECIOUS: Output/%.llvm Output/%.native Output/%.simple Output/%.llc Output/%.llc.s
.PRECIOUS: Output/%.cbe Output/%.cbe.c Output/%.llvm.bc Output/%.linked.bc
.PRECIOUS: Output/%.linked.optbeta.bc Output/%.llvm.optbeta.bc
PROGDIR = $(PROJ_SRC_ROOT)
#
# Scripts in the this directory...
#
TOLERANCEOPT :=
ifdef FP_TOLERANCE
TOLERANCEOPT += -r $(FP_TOLERANCE)
endif
ifdef FP_ABSTOLERANCE
TOLERANCEOPT += -a $(FP_ABSTOLERANCE)
endif
# DIFFPROG - The program used to diff the output
DIFFPROG := $(PROGDIR)/DiffOutput.sh "$(FPCMP) $(TOLERANCEOPT)"
# RUNTIMELIMIT - The number of seconds we should wait before certain events
# timeout. This is overridable on the commandline or in tests makefiles.
#
ifndef RUNTIMELIMIT
ifeq ($(ARCH),XCore)
# 1 hours
RUNTIMELIMIT := 3600
else
RUNTIMELIMIT := 500
endif
endif
# If the program specified a REFERENCE_OUTPUT_FILE, they obviously want to
# USE_REFERENCE_OUTPUT.
ifdef REFERENCE_OUTPUT_FILE
USE_REFERENCE_OUTPUT := 1
endif
# Figure out what kind of configuration specific reference output file to look
# for.
ifdef SMALL_PROBLEM_SIZE
REFERENCE_OUTPUT_KEY := small
else
ifdef LARGE_PROBLEM_SIZE
REFERENCE_OUTPUT_KEY := large
else
REFERENCE_OUTPUT_KEY :=
endif
endif
RUNSAFELY := $(PROGDIR)/RunSafely.sh
RUNSAFELYLOCAL := $(PROGDIR)/RunSafely.sh
ifdef REMOTE_HOST
RUNSAFELY := $(RUNSAFELY) -r $(REMOTE_HOST)
ifndef REMOTE_CLIENT
REMOTE_CLIENT := rsh
endif
endif
ifdef REMOTE_USER
RUNSAFELY := $(RUNSAFELY) -l $(REMOTE_USER)
endif
ifdef REMOTE_CLIENT
RUNSAFELY := $(RUNSAFELY) -rc $(REMOTE_CLIENT)
endif
ifdef REMOTE_PORT
RUNSAFELY := $(RUNSAFELY) -rp "$(REMOTE_PORT)"
endif
ifdef RUNUNDER
RUNSAFELY := $(RUNSAFELY) -u "$(RUNUNDER)"
ifdef EXECUTION_ENVIRONMENT_OVERRIDES
$(error "cannot use both RUNUNDER and EXECUTION_ENVIRONMENT_OVERRIDES")
endif
else
ifdef EXECUTION_ENVIRONMENT_OVERRIDES
RUNSAFELY := $(RUNSAFELY) -u 'env $(EXECUTION_ENVIRONMENT_OVERRIDES)'
endif
endif
# USER_MODE_EMULATION should be defined if tests are being run via user-mode
# emulation (eq QEMU) and thus the host version of timeit should be used.
ifdef USER_MODE_EMULATION
RUNSAFELY := $(RUNSAFELY) -t "$(TIMEIT)"
else
RUNSAFELY := $(RUNSAFELY) -t "$(TIMEIT_TARGET)"
endif
RUNSAFELYLOCAL := $(RUNSAFELYLOCAL) --show-errors -t "$(TIMEIT)"
ifdef NO_WATCHDOG
$(warning "NO_WATCHDOG make variable is no longer needed, please remove!")
endif
RUNSAFELY := $(RUNSAFELY) $(RUNTIMELIMIT)
RUNSAFELYLOCAL := $(RUNSAFELYLOCAL) $(RUNTIMELIMIT)
ifndef STDIN_FILENAME
STDIN_FILENAME := /dev/null
endif
#
# Targets to build for the default target...
#
# We will be working in the Output directory...
PREFIXED_PROGRAMS_TO_TEST := $(addprefix Output/,$(PROGRAMS_TO_TEST))
# Completed bytecode for a program
BYTECODE := $(addsuffix .llvm.bc, $(PREFIXED_PROGRAMS_TO_TEST))
LLCCODEGEN := $(addsuffix .llc.s, $(PREFIXED_PROGRAMS_TO_TEST))
LLCBETACODEGEN := $(addsuffix .llc-beta.s, $(PREFIXED_PROGRAMS_TO_TEST))
# Output produced by programs run
GCCOUTPUT := $(addsuffix .ll, $(addprefix Output/,$basename $(Source)))
NATOUTPUT := $(addsuffix .out-nat, $(PREFIXED_PROGRAMS_TO_TEST))
LLIOUTPUT := $(addsuffix .out-lli, $(PREFIXED_PROGRAMS_TO_TEST))
JITOUTPUT := $(addsuffix .out-jit, $(PREFIXED_PROGRAMS_TO_TEST))
JITBETAOUTPUT := $(addsuffix .out-jit-beta, $(PREFIXED_PROGRAMS_TO_TEST))
LLCOUTPUT := $(addsuffix .out-llc, $(PREFIXED_PROGRAMS_TO_TEST))
LLCBETAOUTPUT := $(addsuffix .out-llc-beta, $(PREFIXED_PROGRAMS_TO_TEST))
# Diffs of program runs vs the native program
LLIDIFFS := $(addsuffix .diff-lli, $(PREFIXED_PROGRAMS_TO_TEST))
JITDIFFS := $(addsuffix .diff-jit, $(PREFIXED_PROGRAMS_TO_TEST))
JITBETADIFFS := $(addsuffix .diff-jit-beta, $(PREFIXED_PROGRAMS_TO_TEST))
LLCDIFFS := $(addsuffix .diff-llc, $(PREFIXED_PROGRAMS_TO_TEST))
LLCBETADIFFS := $(addsuffix .diff-llc-beta, $(PREFIXED_PROGRAMS_TO_TEST))
OPTBETADIFFS := $(addsuffix .diff-opt-beta, $(PREFIXED_PROGRAMS_TO_TEST))
# Profiles for the program.
PROFOUTPUT := $(addsuffix .prof, $(PREFIXED_PROGRAMS_TO_TEST))
PRINTPROFOUTPUT := $(addsuffix .printprof, $(PREFIXED_PROGRAMS_TO_TEST))
# Build Program outputs:
.PRECIOUS: Output/%.out-simple
.PRECIOUS: Output/%.out-lli Output/%.out-jit Output/%.out-llc Output/%.out-llc-beta
.PRECIOUS: Output/%.out-nat Output/%.out-cbe Output/%.out-opt-beta
# Build diffs from the output...
.PRECIOUS: Output/%.diff-simple
.PRECIOUS: Output/%.diff-lli Output/%.diff-jit Output/%.diff-opt-beta
.PRECIOUS: Output/%.diff-llc Output/%.diff-llc-beta Output/%.diff-cbe
# Regardless of what other options are specified, build the program's bytecode
# representation.
all:: $(BYTECODE)
profile:: $(PROFOUTPUT)
print-profile:: $(PRINTPROFOUTPUT)
ifdef RUN_GCC_ONLY
DISABLE_DIFFS = 1
all:: $(GCCOUTPUT)
endif
ifdef DISABLE_FOR_LLVM_PROGRAMS
DISABLE_DIFFS := 1
endif
ifdef DISABLE_LLC
DISABLE_LLC_DIFFS = 1
endif
ifndef DISABLE_DIFFS
ifndef DISABLE_LLC_DIFFS
all:: $(LLCDIFFS)
ifdef ENABLE_LLCBETA
all:: $(LLCBETADIFFS)
endif
endif#DISABLE_LLC_DIFFS
ifdef TARGET_HAS_JIT
ifndef DISABLE_JIT
all:: $(JITDIFFS)
ifdef ENABLE_LLCBETA
all:: $(JITBETADIFFS)
endif
endif#DISABLE_JIT
endif#TARGET_HAS_JIT
ifdef ENABLE_LLI
all:: $(LLIDIFFS)
endif
endif#DISABLE_DIFFS
ifeq ($(ARCH),PowerPC)
LLCBETAOPTION := -regalloc=local -O0
#--enable-ppc-preinc
#--enable-tail-merge
endif
ifeq ($(ARCH),Alpha)
LLCBETAOPTION := -sched=list-td
# -enable-alpha-FTOI -enable-alpha-intfpdiv
endif
ifeq ($(ARCH),IA64)
LLCBETAOPTION := -sched=simple
endif
ifeq ($(ARCH),x86_64)
LLCBETAOPTION := -combiner-alias-analysis
endif
ifeq ($(ARCH),x86)
LLCBETAOPTION := -combiner-alias-analysis
endif
ifeq ($(ARCH),Sparc)
LLCBETAOPTION := -enable-sparc-v9-insts
endif
ifeq ($(ARCH),ARM)
LLCBETAOPTION :=
endif
ifeq ($(ARCH),AArch64)
LLCBETAOPTION :=
endif
ifeq ($(ARCH),THUMB)
LLCBETAOPTION :=
endif
print-llcbeta-option:
@echo $(LLCBETAOPTION)
# Given an unoptimized bytecode file that is a simple linkage of all
# the program's bytecode files, optimize the program using the
# standard compilation optimizations.
$(PROGRAMS_TO_TEST:%=Output/%.linked.bc): \
Output/%.linked.bc: Output/%.linked.rbc $(LOPT)
$(VERB) $(RM) -f $(CURDIR)/$@.info
$(RUNSAFELYLOCAL) /dev/null $@.opt \
$(LOPT) -O3 -info-output-file=$(CURDIR)/$@.info $(STATS) $(EXTRA_LOPT_OPTIONS) $< -o $@
$(PROGRAMS_TO_TEST:%=Output/%.llvm.stripped.bc): \
Output/%.llvm.stripped.bc: Output/%.llvm.bc $(LOPT)
$(RUNSAFELYLOCAL) /dev/null $@.opt \
$(LOPT) -mstrip $< -o $@
$(PROGRAMS_TO_TEST:%=Output/%.linked.optbeta.bc): \
Output/%.linked.optbeta.bc: Output/%.linked.rbc $(LOPT)
$(VERB) $(RM) -f $(CURDIR)/$@.info
$(RUNSAFELYLOCAL) /dev/null $@.opt \
$(LOPT) $(OPTBETAOPTIONS) -info-output-file=$(CURDIR)/$@.info $(STATS) $< -o $@
ifndef DISABLE_FOR_LLVM_PROGRAMS
# Rule to produce final program bytecode file from linked, optimized, bytecode.
# Link the program to the libraries it uses, then perform postlink
# optimization...
$(PROGRAMS_TO_TEST:%=Output/%.llvm.bc): \
Output/%.llvm.bc: Output/%.linked.bc $(LOPT)
$(RUNSAFELYLOCAL) /dev/null $@.opt \
$(LOPT) -std-link-opts $(OPTPASSES) \
-info-output-file=$(CURDIR)/$@.info \
$(STATS) $< $(EXTRA_LINKTIME_OPT_FLAGS) -o $@
$(PROGRAMS_TO_TEST:%=Output/%.llvm.optbeta.bc): \
Output/%.llvm.optbeta.bc: Output/%.linked.optbeta.bc $(LOPT)
$(RUNSAFELYLOCAL) /dev/null $@.opt \
$(LOPT) -std-link-opts \
-info-output-file=$(CURDIR)/$@.info \
$(STATS) $< $(EXTRA_LINKTIME_OPT_FLAGS) -o $@
$(PROGRAMS_TO_TEST:%=Output/%.noopt-llvm.bc): \
Output/%.noopt-llvm.bc: Output/%.linked.rbc $(LOPT)
$(RUNSAFELYLOCAL) /dev/null $@.opt \
$(LOPT) \
-info-output-file=$(CURDIR)/$@.info \
$(STATS) $< -o $@
endif # ifndef DISABLE_FOR_LLVM_PROGRAMS
# Disable asm-verbose. This can slow down compilation and is not what the
# compilers default to using.
LLCFLAGS += -asm-verbose=false
# If the program requires exception handling support, enable (potentially
# expensive) support for it.
ifdef REQUIRES_EH_SUPPORT
# PPC and X86 support DWARF exceptions, for everything else, default to SJLJ
# -enable-eh is no longer required to get DWARF exceptions.
ifneq ($(ARCH),PowerPC)
ifneq ($(ARCH),x86)
ifneq ($(ARCH),x86_64)
LLCFLAGS += -enable-correct-eh-support
EXTRA_LINKTIME_OPT_FLAGS += -disable-inlining
endif
endif
endif
endif
# llc optimization level
ifdef LLC_OPTFLAGS
LLCFLAGS += $(LLC_OPTFLAGS)
endif
# Pass target specific llc flags
ifdef TARGET_LLCFLAGS
LLCFLAGS += $(TARGET_LLCFLAGS)
endif
ifdef EXTRA_LLCFLAGS
LLCFLAGS += $(EXTRA_LLCFLAGS)
endif
# It is important to link C++ programs with G++ so look for -lstdc++ in LDFLAGS
# and set the PROGRAMLD variable to the correct compiler interface to use.
# Note that LDFLAGS must already be defined at the time this file is included,
# or this will not work.
ifneq ($(filter -lstdc++,$(LDFLAGS)),)
PROGRAMLD := $(CXX)
else
PROGRAMLD := $(CC)
endif
#
# Rules to compile the program for the C Back End
#
$(PROGRAMS_TO_TEST:%=Output/%.cbe.c): \
Output/%.cbe.c: Output/%.llvm.bc $(LLC)
$(VERB) $(RM) -f $(CURDIR)/$@.info
$(RUNSAFELYLOCAL) /dev/null $@.llc \
$(LLC) $(LLCFLAGS) -march=c $< -o $@ -info-output-file=$(CURDIR)/$@.info $(STATS)
$(PROGRAMS_TO_TEST:%=Output/%.cbe): \
Output/%.cbe: Output/%.cbe.c
$(RUNSAFELYLOCAL) /dev/null $@.cc \
$(CC) $< -o $@ $(LDFLAGS) $(CFLAGS) $(OPTFLAGS) -fno-strict-aliasing -fno-inline $(X_TARGET_FLAGS) $(LIBS)
#
# Compile a linked program to machine code with LLC.
#
$(PROGRAMS_TO_TEST:%=Output/%.llc.s): \
Output/%.llc.s: Output/%.llvm.bc $(LLC)
$(VERB) $(RM) -f $(CURDIR)/$@.info
$(RUNSAFELYLOCAL) /dev/null $@.llc \
$(LLC) $(LLCFLAGS) $(LLCOPTION) $< -o $@ -info-output-file=$(CURDIR)/$@.info $(STATS)
$(PROGRAMS_TO_TEST:%=Output/%.llc-beta.s): \
Output/%.llc-beta.s: Output/%.llvm.bc $(LLC)
$(VERB) $(RM) -f $(CURDIR)/$@.info
$(RUNSAFELYLOCAL) /dev/null $@.llc \
$(LLC) $(LLCFLAGS) $(LLCBETAOPTION) $< -o $@ -info-output-file=$(CURDIR)/$@.info $(STATS)
$(PROGRAMS_TO_TEST:%=Output/%.opt-beta.s): \
Output/%.opt-beta.s: Output/%.llvm.optbeta.bc $(LLC)
$(VERB) $(RM) -f $(CURDIR)/$@.info
$(RUNSAFELYLOCAL) /dev/null $@.llc \
$(LLC) $(LLCFLAGS) $< -o $@ -info-output-file=$(CURDIR)/$@.info $(STATS)
# On darwin, pass -force_cpusubtype_ALL to allow all ppc instructions.
ifeq ($(ARCH),PowerPC)
ifneq ($(TARGET_OS),Linux)
LLCASSEMBLERFLAGS = -force_cpusubtype_ALL
endif
endif
# On sparc, pass -mcpu=v9 to allow all V9 instructions, even in 32-bit mode.
ifeq ($(ARCH),Sparc)
LLCASSEMBLERFLAGS = -mcpu=v9
endif
# Generate a .o file from the llvm.bc file with the integrated assembler.
$(PROGRAMS_TO_TEST:%=Output/%.llc.o): \
Output/%.llc.o: Output/%.llvm.bc $(LLC)
$(VERB) $(RM) -f $(CURDIR)/$@.info
$(RUNSAFELYLOCAL) /dev/null $@.llc \
$(LLC) $(LLCFLAGS) -filetype=obj $< -o $@ -info-output-file=$(CURDIR)/$@.info $(STATS)
$(PROGRAMS_TO_TEST:%=Output/%.llc-beta.o): \
Output/%.llc-beta.o: Output/%.llvm.bc $(LLC)
$(VERB) $(RM) -f $(CURDIR)/$@.info
$(RUNSAFELYLOCAL) /dev/null $@.llc \
$(LLC) $(LLCFLAGS) $(LLCBETAOPTION) -filetype=obj $< -o $@ -info-output-file=$(CURDIR)/$@.info $(STATS)
$(PROGRAMS_TO_TEST:%=Output/%.opt-beta.o): \
Output/%.opt-beta.o: Output/%.llvm.optbeta.bc $(LLC)
$(VERB) $(RM) -f $(CURDIR)/$@.info
$(RUNSAFELYLOCAL) /dev/null $@.llc \
$(LLC) $(LLCFLAGS) -filetype=obj $< -o $@ -info-output-file=$(CURDIR)/$@.info $(STATS)
ifdef TEST_INTEGRATED_ASSEMBLER
# Link an LLVM-linked program using the system linker.
$(PROGRAMS_TO_TEST:%=Output/%.llc): \
Output/%.llc: Output/%.llc.o
-$(PROGRAMLD) $< -o $@ $(LLCLIBS) $(LLCASSEMBLERFLAGS) $(X_TARGET_FLAGS) $(LDFLAGS)
$(PROGRAMS_TO_TEST:%=Output/%.llc-beta): \
Output/%.llc-beta: Output/%.llc-beta.o
-$(PROGRAMLD) $< -o $@ $(LLCLIBS) $(LLCASSEMBLERFLAGS) $(X_TARGET_FLAGS) $(LDFLAGS)
$(PROGRAMS_TO_TEST:%=Output/%.opt-beta): \
Output/%.opt-beta: Output/%.opt-beta.o
-$(PROGRAMLD) $< -o $@ $(LLCLIBS) $(LLCASSEMBLERFLAGS) $(X_TARGET_FLAGS) $(LDFLAGS)
else
# Assemble/Link an LLVM-linked program using the system assembler and linker.
#
$(PROGRAMS_TO_TEST:%=Output/%.llc): \
Output/%.llc: Output/%.llc.s
-$(PROGRAMLD) $< -o $@ $(LLCLIBS) $(LLCASSEMBLERFLAGS) $(X_TARGET_FLAGS) $(LDFLAGS)
$(PROGRAMS_TO_TEST:%=Output/%.llc-beta): \
Output/%.llc-beta: Output/%.llc-beta.s
-$(PROGRAMLD) $< -o $@ $(LLCLIBS) $(LLCASSEMBLERFLAGS) $(X_TARGET_FLAGS) $(LDFLAGS)
$(PROGRAMS_TO_TEST:%=Output/%.opt-beta): \
Output/%.opt-beta: Output/%.opt-beta.s
-$(PROGRAMLD) $< -o $@ $(LLCLIBS) $(LLCASSEMBLERFLAGS) $(X_TARGET_FLAGS) $(LDFLAGS)
endif
#
# Rules to execute the program
#
# Note, these must be lazily expanded by make (for EXTRA_LLIFLAGS to work, it is
# redefined in other Makefiles).
LLI_OPTS = -force-interpreter=true --disable-core-files
JIT_OPTS = -force-interpreter=false --disable-core-files
# lli optimization level
ifdef LLI_OPTFLAGS
LLI_OPTFLAGS += $(LLI_OPTFLAGS)
JIT_OPTFLAGS += $(LLI_OPTFLAGS)
endif
# Pass target specific lli flags
ifdef TARGET_LLIFLAGS
LLI_OPTS += $(TARGET_LLIFLAGS)
JIT_OPTS += $(TARGET_LLIFLAGS)
endif
# EXTRA_LLIFLAGS is used by the nighly tester to add arugments to invocations of
# the JIT and LLI in order to get timing info and statistics.
ifndef EXTRA_LLIFLAGS
EXTRA_LLIFLAGS =
endif
LLI_OPTS += $(EXTRA_LLIFLAGS)
JIT_OPTS += $(EXTRA_LLIFLAGS)
# If the program requires exception handling support, enable (potentially
# expensive) support for it.
ifdef REQUIRES_EH_SUPPORT
JIT_OPTS += -enable-correct-eh-support
endif
# Some of the reference outputs assume that ENABLE_HASHED_PROGRAM_OUTPUT
# is defined. Make sure it is defined if USE_REFERENCE_OUTPUT is defined.
ifdef USE_REFERENCE_OUTPUT
ENABLE_HASHED_PROGRAM_OUTPUT := 1
endif
# If the program wants its output hashed, add an output filter.
ifdef ENABLE_HASHED_PROGRAM_OUTPUT
ifdef HASH_PROGRAM_OUTPUT
# If the program also wants a floating-point comparison, give
# and error.
ifdef FP_TOLERANCE
$(error Cannot use both FP_TOLERNANCE and HASH_PROGRAM_OUTPUT)
endif
PROGRAM_OUTPUT_FILTER := $(PROGDIR)/HashProgramOutput.sh
endif
endif
native:: $(PROGRAMS_TO_TEST:%=Output/%.native)
stripped-bytecode:: $(PROGRAMS_TO_TEST:%=Output/%.llvm.stripped.bc)
ifndef PROGRAMS_HAVE_CUSTOM_RUN_RULES
# Rules to build the test output...
ifndef USE_PRECOMPILED_BYTECODE
ifndef USE_REFERENCE_OUTPUT
$(PROGRAMS_TO_TEST:%=Output/%.out-nat): \
Output/%.out-nat: Output/%.native
$(RUNSAFELY) $(STDIN_FILENAME) $@ $< $(RUN_OPTIONS)
ifdef PROGRAM_OUTPUT_FILTER
$(PROGRAM_OUTPUT_FILTER) $@
endif
ifdef UPDATE_REFERENCE_OUTPUT
ifeq ($(REFERENCE_OUTPUT_KEY),)
cp $@ $(PROJ_SRC_DIR)/$*.reference_output
else
if [ ! -f $(PROJ_SRC_DIR)/$*.reference_output ]; then \
echo "error: no normal reference output!"; \
exit 1; \
elif (! diff -q $@ $(PROJ_SRC_DIR)/$*.reference_output); then \
cp $@ $(PROJ_SRC_DIR)/$*.reference_output.$(REFERENCE_OUTPUT_KEY); \
else \
echo "no need to update $(REFERENCE_OUTPUT_KEY) reference," \
"matches normal reference!"; \
fi
endif
endif
endif
endif
$(PROGRAMS_TO_TEST:%=Output/%.out-simple): \
Output/%.out-simple: Output/%.simple
$(RUNSAFELY) $(STDIN_FILENAME) $@ $< $(RUN_OPTIONS)
ifdef PROGRAM_OUTPUT_FILTER
$(PROGRAM_OUTPUT_FILTER) $@
endif
ifeq ($(TARGET_OS),Darwin)
STRIP_BINARY_FOR_HASH_CMD=echo
else
STRIP_BINARY_FOR_HASH_CMD=strip --remove-section=.comment --remove-section='.note*'
endif
$(PROGRAMS_TO_TEST:%=Output/%.simple-hash): \
Output/%.simple-hash: Output/%.simple
cp $< $@; \
$(STRIP_BINARY_FOR_HASH_CMD) $@; \
$(PROGDIR)/HashProgramOutput.sh $@
$(PROGRAMS_TO_TEST:%=Output/%.out-lli): \
Output/%.out-lli: Output/%.llvm.bc $(LLI)
$(RUNSAFELY) $(STDIN_FILENAME) $@ $(LLI) -info-output-file=$(CURDIR)/$@.info $(STATS) $(LLI_OPTS) $< $(RUN_OPTIONS)
ifdef PROGRAM_OUTPUT_FILTER
$(PROGRAM_OUTPUT_FILTER) $@
endif
$(PROGRAMS_TO_TEST:%=Output/%.out-jit): \
Output/%.out-jit: Output/%.llvm.bc $(LLI)
$(RUNSAFELY) $(STDIN_FILENAME) $@ $(LLI) -info-output-file=$(CURDIR)/$@.info $(STATS) $(JIT_OPTS) $< $(RUN_OPTIONS)
ifdef PROGRAM_OUTPUT_FILTER
$(PROGRAM_OUTPUT_FILTER) $@
endif
$(PROGRAMS_TO_TEST:%=Output/%.out-jit-beta): \
Output/%.out-jit-beta: Output/%.llvm.bc $(LLI)
$(RUNSAFELY) $(STDIN_FILENAME) $@ $(LLI) -info-output-file=$(CURDIR)/$@.info $(STATS) $(LLCBETAOPTION) $(JIT_OPTS) $< $(RUN_OPTIONS)
ifdef PROGRAM_OUTPUT_FILTER
$(PROGRAM_OUTPUT_FILTER) $@
endif
$(PROGRAMS_TO_TEST:%=Output/%.out-llc): \
Output/%.out-llc: Output/%.llc
$(RUNSAFELY) $(STDIN_FILENAME) $@ $< $(RUN_OPTIONS)
ifdef PROGRAM_OUTPUT_FILTER
$(PROGRAM_OUTPUT_FILTER) $@
endif
$(PROGRAMS_TO_TEST:%=Output/%.out-llc-beta): \
Output/%.out-llc-beta: Output/%.llc-beta
$(RUNSAFELY) $(STDIN_FILENAME) $@ $< $(RUN_OPTIONS)
ifdef PROGRAM_OUTPUT_FILTER
$(PROGRAM_OUTPUT_FILTER) $@
endif
$(PROGRAMS_TO_TEST:%=Output/%.out-opt-beta): \
Output/%.out-opt-beta: Output/%.opt-beta
$(RUNSAFELY) $(STDIN_FILENAME) $@ $< $(RUN_OPTIONS)
ifdef PROGRAM_OUTPUT_FILTER
$(PROGRAM_OUTPUT_FILTER) $@
endif
$(PROGRAMS_TO_TEST:%=Output/%.out-cbe): \
Output/%.out-cbe: Output/%.cbe
$(RUNSAFELY) $(STDIN_FILENAME) $@ $< $(RUN_OPTIONS)
ifdef PROGRAM_OUTPUT_FILTER
$(PROGRAM_OUTPUT_FILTER) $@
endif
# The RunSafely.sh script puts an "exit <retval>" line at the end of
# the program's output. We have to make bugpoint do the same thing
# or else it will get false positives when it diff's the reference
# output with the program's output.
BUGPOINT_OPTIONS += -append-exit-code
# Support remote execution
ifdef REMOTE_HOST
BUGPOINT_OPTIONS += -remote-host=$(REMOTE_HOST)
ifdef REMOTE_PORT
BUGPOINT_OPTIONS += -remote-port=$(REMOTE_PORT)
endif
ifdef REMOTE_USER
BUGPOINT_OPTIONS += -remote-user=$(REMOTE_USER)
endif
ifdef REMOTE_CLIENT
BUGPOINT_OPTIONS += -remote-client=$(REMOTE_CLIENT)
endif
endif
# If a tolerance is set, pass it off to bugpoint
ifdef FP_TOLERANCE
BUGPOINT_OPTIONS += -rel-tolerance $(FP_TOLERANCE)
endif
ifdef FP_ABSTOLERANCE
BUGPOINT_OPTIONS += -abs-tolerance $(FP_ABSTOLERANCE)
endif
ifdef DISABLE_LOOP_EXTRACT
BUGPOINT_OPTIONS += -disable-loop-extraction
endif
ifdef DISABLE_BLOCK_EXTRACT
BUGPOINT_OPTIONS += -disable-block-extraction
endif
# Give bugpoint information about LDFLAGS to pass down to the actual link stage
# of the program.
BUGPOINT_OPTIONS += $(LDFLAGS:%=-Xlinker=%) $(EXTRA_OPTIONS:%=-Xlinker=%)
# Specify stdin, reference output, and command line options for the program...
BUGPOINT_OPTIONS += -input=$(STDIN_FILENAME) -output=Output/$*.out-nat
BUGPOINT_OPTIONS += -timeout=$(RUNTIMELIMIT)
BUGPOINT_OPTIONS += --tool-args $(LLCFLAGS)
ifeq ($(ARCH),x86)
BUGPOINT_TOOL_OPTIONS = -gcc-tool-args -m32
endif
ifeq ($(ARCH),x86_64)
BUGPOINT_TOOL_OPTIONS += -gcc-tool-args -m64
endif
BUGPOINT_ARGS += --args -- $(RUN_OPTIONS)
# Rules to bugpoint the opt, llc, or lli commands...
$(PROGRAMS_TO_TEST:%=Output/%.bugpoint-opt): \
Output/%.bugpoint-opt: Output/%.noopt-llvm.bc $(LBUGPOINT) \
Output/%.out-nat
PWD=$(CURDIR) $(LBUGPOINT) -llc-safe $< -O3 \
$(BUGPOINT_OPTIONS) $(BUGPOINT_TOOL_OPTIONS) $(BUGPOINT_ARGS)
$(PROGRAMS_TO_TEST:%=Output/%.bugpoint-llc): \
Output/%.bugpoint-llc: Output/%.llvm.bc $(LBUGPOINT) Output/%.out-nat
PWD=$(CURDIR) $(LBUGPOINT) $< -run-llc \
$(BUGPOINT_OPTIONS) $(BUGPOINT_TOOL_OPTIONS) $(BUGPOINT_ARGS)
$(PROGRAMS_TO_TEST:%=Output/%.bugpoint-llc-beta): \
Output/%.bugpoint-llc-beta: Output/%.llvm.bc $(LBUGPOINT) Output/%.out-nat
PWD=$(CURDIR) $(LBUGPOINT) $< -llc-safe \
$(BUGPOINT_OPTIONS) $(LLCBETAOPTION) $(BUGPOINT_TOOL_OPTIONS) $(BUGPOINT_ARGS)
$(PROGRAMS_TO_TEST:%=Output/%.bugpoint-opt-beta): \
Output/%.bugpoint-opt-beta: Output/%.linked.rbc $(LBUGPOINT) Output/%.out-nat
PWD=$(CURDIR) $(LBUGPOINT) -llc-safe $< \
$(BUGPOINT_OPTIONS) $(BUGPOINT_TOOL_OPTIONS) $(OPTBETAOPTIONS) $(BUGPOINT_ARGS)
$(PROGRAMS_TO_TEST:%=Output/%.bugpoint-jit): \
Output/%.bugpoint-jit: Output/%.llvm.bc $(LBUGPOINT) Output/%.out-nat
PWD=$(CURDIR) $(LBUGPOINT) $< -run-jit -safe-run-llc \
$(BUGPOINT_OPTIONS) $(BUGPOINT_TOOL_OPTIONS) $(BUGPOINT_ARGS)
$(PROGRAMS_TO_TEST:%=Output/%.bugpoint-cbe): \
Output/%.bugpoint-cbe: Output/%.llvm.bc $(LBUGPOINT) Output/%.out-nat
PWD=$(CURDIR) $(LBUGPOINT) $< -cbe-bug \
$(BUGPOINT_OPTIONS) $(BUGPOINT_TOOL_OPTIONS) $(BUGPOINT_ARGS)
$(PROGRAMS_TO_TEST:%=Output/%.misopt.out): \
Output/%.misopt.out: Output/%.linked.rbc $(LFINDMISOPT)
$(LFINDMISOPT) $< Output/$*.misopt "$(RUN_OPTIONS)" \
"$(STDIN_FILENAME)" > Output/$*.misopt.out 2>&1
clean::
rm -f bugpoint-*
rm -f bugpoint.*
rm -rf Output/misopt-*
LIBPROFILESO = $(LLVMLIBCURRENTSOURCE)/libprofile_rt.so
$(PROGRAMS_TO_TEST:%=Output/%.prof): \
Output/%.prof: Output/%.llvm-prof.bc Output/%.out-nat $(LIBPROFILESO)
@rm -f $@
$(RUNSAFELY) $(STDIN_FILENAME) Output/$*.out-prof $(LLI) $(JIT_OPTS) \
-fake-argv0 'Output/$*.llvm.bc' -load $(LIBPROFILESO) $< -llvmprof-output $@ $(RUN_OPTIONS)
@cmp -s Output/$*.out-prof Output/$*.out-nat || \
printf "***\n***\n*** WARNING: Output of profiled program (Output/$*.out-prof)\n*** doesn't match the output of the native program (Output/$*.out-nat)!\n***\n***\n";
endif
#
# Rules to generate profiling information
#
$(PROGRAMS_TO_TEST:%=Output/%.llvm-prof.bc): \
Output/%.llvm-prof.bc: Output/%.llvm.bc
$(RUNSAFELYLOCAL) /dev/null $@.opt \
$(LOPT) -insert-edge-profiling $< -o $@
$(PROGRAMS_TO_TEST:%=Output/%.printprof): \
Output/%.printprof: Output/%.llvm.bc Output/%.prof $(LPROF)
$(RUNSAFELYLOCAL) /dev/null $@.prof \
$(LPROF) $< Output/$*.prof
#
# Rules to diff test output...
#
ifdef PROGRAM_IS_NONDETERMINISTIC
# If the program is non-deterministic, just touch $@
DIFFPROG = touch $@ \#
endif
$(PROGRAMS_TO_TEST:%=Output/%.diff-simple): \
Output/%.diff-simple: Output/%.out-nat Output/%.out-simple
-$(DIFFPROG) simple $* $(HIDEDIFF)
$(PROGRAMS_TO_TEST:%=Output/%.diff-lli): \
Output/%.diff-lli: Output/%.out-nat Output/%.out-lli
-$(DIFFPROG) lli $* $(HIDEDIFF)
$(PROGRAMS_TO_TEST:%=Output/%.diff-jit): \
Output/%.diff-jit: Output/%.out-nat Output/%.out-jit
-$(DIFFPROG) jit $* $(HIDEDIFF)
$(PROGRAMS_TO_TEST:%=Output/%.diff-jit-beta): \
Output/%.diff-jit-beta: Output/%.out-nat Output/%.out-jit-beta
-$(DIFFPROG) jit-beta $* $(HIDEDIFF)
$(PROGRAMS_TO_TEST:%=Output/%.diff-llc): \
Output/%.diff-llc: Output/%.out-nat Output/%.out-llc
-$(DIFFPROG) llc $* $(HIDEDIFF)
$(PROGRAMS_TO_TEST:%=Output/%.diff-llc-beta): \
Output/%.diff-llc-beta: Output/%.out-nat Output/%.out-llc-beta
-$(DIFFPROG) llc-beta $* $(HIDEDIFF)
$(PROGRAMS_TO_TEST:%=Output/%.diff-opt-beta): \
Output/%.diff-opt-beta: Output/%.out-nat Output/%.out-opt-beta
-$(DIFFPROG) opt-beta $* $(HIDEDIFF)
$(PROGRAMS_TO_TEST:%=Output/%.diff-cbe): \
Output/%.diff-cbe: Output/%.out-nat Output/%.out-cbe
-$(DIFFPROG) cbe $* $(HIDEDIFF)
ifndef DISABLE_DIFFS
$(PROGRAMS_TO_TEST:%=Output/%.exe-simple): \
Output/%.exe-simple: Output/%.diff-simple
-rm -f $@
-cp $< $@
$(PROGRAMS_TO_TEST:%=Output/%.exe-lli): \
Output/%.exe-lli: Output/%.diff-lli
-rm -f $@
-cp $< $@
$(PROGRAMS_TO_TEST:%=Output/%.exe-jit): \
Output/%.exe-jit: Output/%.diff-jit
-rm -f $@
-cp $< $@
$(PROGRAMS_TO_TEST:%=Output/%.exe-jit-beta): \
Output/%.exe-jit-beta: Output/%.diff-jit-beta
-rm -f $@
-cp $< $@
$(PROGRAMS_TO_TEST:%=Output/%.exe-llc): \
Output/%.exe-llc: Output/%.diff-llc
-rm -f $@
-cp $< $@
$(PROGRAMS_TO_TEST:%=Output/%.exe-llc-beta): \
Output/%.exe-llc-beta: Output/%.diff-llc-beta
-rm -f $@
-cp $< $@
$(PROGRAMS_TO_TEST:%=Output/%.exe-opt-beta): \
Output/%.exe-opt-beta: Output/%.diff-opt-beta
-rm -f $@
-cp $< $@
$(PROGRAMS_TO_TEST:%=Output/%.exe-cbe): \
Output/%.exe-cbe: Output/%.diff-cbe
-rm -f $@
-cp $< $@
# Pseudo target to build just the bytecode file.
bytecode:: $(PROGRAMS_TO_TEST:%=Output/%.llvm.bc)
endif
# Rules to support the USE_PRECOMPILED_BYTECODE setting If set, submakefiles
# will not know how to make output bytecode files for the programs in this
# directory. Instead, this makefile just copies them out of the bytecode
# repository.
ifdef USE_PRECOMPILED_BYTECODE
# Calculate the directory we should copy the bytecode file into. This is
# relative to BYTECODE_REPOSITORY and the current directory this program is in.
#
CURDIR := $(shell cd .; pwd)
PROGDIR := $(shell cd $(LEVEL); pwd)
SRCDIR := $(BYTECODE_REPOSITORY)/$(subst $(PROGDIR),,$(CURDIR))
# Because we don't have source code, we cannot build a native version of the
# executable. Copy over pregenerated reference output.
$(PROGRAMS_TO_TEST:%=Output/%.out-nat): \
Output/%.out-nat: $(SRCDIR)/%.reference_output Output/.dir $(PROJ_SRC_ROOT)/instant.txt
cp $< $@
# Pretend that the reference output was produced instantaneously.
cp $(PROJ_SRC_ROOT)/instant.txt $@.time
$(PROGRAMS_TO_TEST:%=Output/%.LOC.txt): \
Output/%.LOC.txt: $(SRCDIR)/%.LOC.txt Output/.dir
cp $< $@
else
# Rules to support USE_REFERENCE_OUTPUT.
ifdef USE_REFERENCE_OUTPUT
# If a reference output file is specified, use that.
ifdef REFERENCE_OUTPUT_FILE
Output/%.out-nat: $(REFERENCE_OUTPUT_FILE) Output/.dir $(PROJ_SRC_ROOT)/instant.txt
cp $< $@
# Pretend that the reference output was produced instantaneously.
cp $(PROJ_SRC_ROOT)/instant.txt $@.time
else
# Otherwise, pick the best reference output based on
# 'progamname.reference_output'.
#
# Note that this rule needs to be in both Makefile.programs and Makefile.spec.
Output/%.out-nat: Output/.dir $(PROJ_SRC_ROOT)/instant.txt
-if [ -f "$(PROJ_SRC_DIR)/$*.reference_output.$(ENDIAN)-endian.$(REFERENCE_OUTPUT_KEY)" ]; then \
cp $(PROJ_SRC_DIR)/$*.reference_output.$(ENDIAN)-endian.$(REFERENCE_OUTPUT_KEY) $@; \
elif [ -f "$(PROJ_SRC_DIR)/$*.reference_output.$(REFERENCE_OUTPUT_KEY)" ]; then \
cp $(PROJ_SRC_DIR)/$*.reference_output.$(REFERENCE_OUTPUT_KEY) $@; \
elif [ -f "$(PROJ_SRC_DIR)/$*.reference_output.$(ENDIAN)-endian" ]; then \
cp $(PROJ_SRC_DIR)/$*.reference_output.$(ENDIAN)-endian $@; \
elif [ -f "$(PROJ_SRC_DIR)/$*.reference_output" ]; then \
cp $(PROJ_SRC_DIR)/$*.reference_output $@; \
else \
printf "WARNING: %s: %s\n" "NO REFERENCE OUTPUT (using default)" "$(PROJ_SRC_DIR)/$*.reference_output" > $@; \
cp $(PROJ_SRC_ROOT)/default.reference_output $@; \
cat $@; \
fi
# Pretend that the reference output was produced instantaneously.
cp $(PROJ_SRC_ROOT)/instant.txt $@.time
endif
endif
endif
# Support for the TEST= option... when TEST= is specified on the command line,
# the default target is the test target. Here we dispatch to a specific set of
# tests.
#
test:: $(PROGRAMS_TO_TEST:%=test.$(TEST).%)
# Support building with the TEST= option without executing tests.
# Allows parallel builds to complete before running serial benchmarks.
build:: $(PROGRAMS_TO_TEST:%=build.$(TEST).%)
# AVAILABLE_TESTS - Compute the set of tests available for user help
#
TEST_FILES = $(wildcard $(PROGDIR)/TEST.*.Makefile) \
$(wildcard $(LLVM_SRC_ROOT)/projects/*/test/TEST.*.Makefile)
AVAILABLE_TESTS = $(patsubst TEST.%.Makefile,%,$(notdir $(TEST_FILES)))
# If they just say 'make test' then we print out an error telling the user to
# specify a TEST= option.
$(PROGRAMS_TO_TEST:%=test..%): \
test..%:
@echo
@echo "***************************************************************"
@echo " ERROR: you cannot type '$(MAKE) test' directly."
@echo " Instead, use '$(MAKE) TEST=X' where X is the name of a test."
@echo " Tests available: $(AVAILABLE_TESTS)"
@echo " Alternatively, just use '$(MAKE)' to run comparisons."
@echo "***************************************************************"
@echo
@exit 1
# Include all makefiles which define tests... These makefiles must define
# test.<testname>.% given input from Output/%.llvm.bc
#
ifdef TEST
TestMakefile := $(wildcard $(PROGDIR)/TEST.$(TEST).Makefile) \
$(wildcard $(LLVM_SRC_ROOT)/projects/*/test/TEST.$(TEST).Makefile)
TestReport := $(wildcard $(PROGDIR)/TEST.$(TEST).report) \
$(wildcard $(LLVM_SRC_ROOT)/projects/*/test/TEST.$(TEST).report)
TestGnuPlot := $(wildcard $(PROGDIR)/TEST.$(TEST).gnuplot) \
$(wildcard $(LLVM_SRC_ROOT)/projects/*/test/TEST.$(TEST).gnuplot)
ifneq ($(strip $(TestMakefile)),)
-include $(TestMakefile)
else
$(PROGRAMS_TO_TEST:%=test.$(TEST).%): \
test.$(TEST).%:
@echo
@echo "***************************************************************"
@echo " ERROR: Test '$(TEST)' is not a known test!"
@echo " Tests Available: $(AVAILABLE_TESTS)"
@echo " Test Program: $*"
@echo " Test Makefile: $(TestMakefile)"
@echo " Test Report: $(TestReport)"
@echo "***************************************************************"
@echo
@exit 1
endif
endif
#
# Rules for building a report from 'make report TEST=<x>'
#
GENERATEREPORT := $(PROJ_SRC_ROOT)/GenerateReport.pl
ifndef ENABLE_PARALLEL_REPORT
FORCE_SERIAL_ARG := -j1
endif
report.$(TEST).raw.out:: $(REPORT_DEPENDENCIES) $(TestMakefile)
$(MAKE) $(FORCE_SERIAL_ARG) TEST=$(TEST)
find . -name \*.$(TEST).report.txt -exec cat {} \; | tee $@
ifneq ($(TestReport),)
report.$(TEST).txt: report.$(TEST).raw.out $(TestReport) $(GENERATEREPORT)
$(GENERATEREPORT) $(TestReport) < $< > $@
report.$(TEST).html: report.$(TEST).raw.out $(TestReport) $(GENERATEREPORT)
$(GENERATEREPORT) -html $(TestReport) < $< > $@
report.$(TEST).tex: report.$(TEST).raw.out $(TestReport) $(GENERATEREPORT)
$(GENERATEREPORT) -latex $(TestReport) < $< > $@
report.$(TEST).csv: report.$(TEST).raw.out $(TestReport) $(GENERATEREPORT)
$(GENERATEREPORT) -csv $(TestReport) < $< > $@
report.graphs: report.$(TEST).raw.out $(TestReport) $(TestGnuPlot) $(GENERATEREPORT)
$(GENERATEREPORT) -graphs $(TestReport) < $<
gnuplot $(TestGnuPlot)
report: report.$(TEST).txt
@cat $<
report.html: report.$(TEST).html
report.csv: report.$(TEST).csv
report.tex: report.$(TEST).tex
@cat $<
report.$(TEST).txtonly: report.$(TEST).raw.out $(TestReport)
@cat report.$(TEST).raw.out
report.dbgopt.header:
@echo "***************************************************************"
@echo " Test failures in this report indicates that code generation"
@echo " for the test case is influenced by presense of debugging"
@echo " information."
@echo " "
@echo " Run following commands to investigate failures."
@echo " prompt> clang -g -fdebug-disable-debug-info-print -Os -S foo.c -o foo.first.s"
@echo " prompt> clang -Os -S foo.c -o foo.second.s"
@echo " prompt> diff foo.first.s foo.second.s"
@echo "***************************************************************"
report.dbgopt: report.dbgopt.header report.$(TEST).txtonly
endif
clean::
rm -f report.*.raw.out report.*.txt report.*.html report.*.tex report.*.csv