llvm/Makefile.config

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#===-- Makefile.config - Local configuration for LLVM ------*- makefile -*--====
#
# This file is included by Makefile.common. It defines paths and other
# values specific to a particular installation of LLVM.
#===-----------------------------------------------------------------------====
# Path to the C++ compiler to use. This is an optional setting, which defaults
# to whatever your gmake defaults to.
#
# Under Linux, for some reason the compiler driver wants to search the PATH to
# find the system assembler, which breaks if the LLVM assembler is in our path.
# Hack it to use the assembler in /usr/bin directly.
#
CXX = PATH=/usr/bin /usr/dcs/software/evaluation/bin/g++
# We have the same problem with the CC binary, which use used by testcases for
# native builds.
#
CC := PATH=/usr/bin /usr/dcs/software/evaluation/bin/gcc
#
# Path to the linker.
#
LD = ld
#
# Path to the archiver program.
#
AR_PATH = ar
#
# The pathnames of the Flex and Bison programs, respectively.
#
BISON = bison
FLEX = flex
#
# Path OBJ_ROOT to the directory where object files should be stored during a
# build. Set to "." if you do not want to use a separate place for object
# files.
#
#OBJ_ROOT = .
OBJ_ROOT := /localhome/$(USER)
# Path to location for LLVM front-end this should only be specified here if you
# want to override the value set in Makefile.$(uname)
#
#LLVMGCCDIR := /home/vadve/lattner/local/x86/llvm-gcc/
# When this setting is set to true, programs in the llvm/test/Programs hierarchy
# are not recompiled from source code. Instead, the bytecode for the file is
# pulled from the BYTECODE_REPOSITORY directory. This can be useful when disk
# space is limited or when you just don't want to spend time running the C
# frontend.
#
#USE_PRECOMPILED_BYTECODE := 1
# This path specifies the cannonical location of bytecode files for compiled
# versions of the test/Programs/* programs. This is used as the bytecode source
# when USE_PRECOMPILED_BYTECODE is specified or when source code is not
# available for the program (such as SPEC).
#
BYTECODE_REPOSITORY := /home/vadve/lattner/LLVMPrograms
# Path to location for purify, this is only needed if you build with
# ENABLE_PURIFY=1
#
PURIFY = /usr/dcs/applications/purify/bin/purify
#
# SPEC benchmarks:
# Set this variable to enable the use of the SPEC benchmarks. You must
# provide the SPEC benchmarks on your own.
#
USE_SPEC := 1
#
# Path to the SPEC benchmarks. If you have the SPEC benchmarks, place the
# path here.
#
SPEC_ROOT := /home/vadve/shared/benchmarks/speccpu2000/benchspec
#
# Path to the PAPI code. This is used by the reoptimizer only.
#
PAPIDIR := /home/vadve/shared/papi-2.3.4.1
# These are options that can either be enabled here, or can be enabled on the
# make command line (ie, make ENABLE_PROFILING=1)
#
# When ENABLE_OPTIMIZED is enabled, Release builds of all of the LLVM code are
# turned on, and Debug builds are turned off.
#
#ENABLE_OPTIMIZED = 1
# When ENABLE_PROFILING is enabled, the llvm source base is built with profile
# information to allow gprof to be used to get execution frequencies.
#
#ENABLE_PROFILING = 1
#
# This open tells the Makefiles to produce verbose output.
# It essentially prints the commands that make is executing
#
#VERBOSE = 1
# When ENABLE_PURIFY is enabled, the LLVM tools are linked with purify (which
# must be locally installed) to allow for some automated memory error debugging.
#
#ENABLE_PURIFY = 1