#!/bin/bash # # BLIS # An object-based framework for developing high-performance BLAS-like # libraries. # # Copyright (C) 2014, The University of Texas at Austin # # 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(s) of the copyright holder(s) 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 # HOLDER 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. # # # # Makefile # # Field G. Van Zee # # Makefile for standalone BLIS test drivers. # # # --- Makefile PHONY target definitions ---------------------------------------- # .PHONY: all all-st all-mt \ blis blis-st blis-mt \ blis-nat blis-nat-st blis-nat-mt \ openblas openblas-st openblas-mt \ mkl mkl-st mkl-mt \ blis-gemm-st blis-gemm-mt \ blis-gemm-nat-st blis-gemm-nat-mt \ openblas-gemm-st openblas-gemm-mt \ mkl-gemm-st mkl-gemm-mt \ clean cleanx # # --- Determine makefile fragment location ------------------------------------- # # Comments: # - DIST_PATH is assumed to not exist if BLIS_INSTALL_PATH is given. # - We must use recursively expanded assignment for LIB_PATH and INC_PATH in # the second case because CONFIG_NAME is not yet set. ifneq ($(strip $(BLIS_INSTALL_PATH)),) LIB_PATH := $(BLIS_INSTALL_PATH)/lib INC_PATH := $(BLIS_INSTALL_PATH)/include/blis SHARE_PATH := $(BLIS_INSTALL_PATH)/share/blis else DIST_PATH := ../.. LIB_PATH = ../../lib/$(CONFIG_NAME) INC_PATH = ../../include/$(CONFIG_NAME) SHARE_PATH := ../.. endif # # --- Include common makefile definitions -------------------------------------- # # Include the common makefile fragment. -include $(SHARE_PATH)/common.mk # # --- BLAS and LAPACK implementations ------------------------------------------ # # BLIS library and header path. This is simply wherever it was installed. #BLIS_LIB_PATH := $(INSTALL_PREFIX)/lib #BLIS_INC_PATH := $(INSTALL_PREFIX)/include/blis # BLIS library. #BLIS_LIB := $(BLIS_LIB_PATH)/libblis.a # BLAS library path(s). This is where the BLAS libraries reside. HOME_LIB_PATH := $(HOME)/flame/lib # # --- General build definitions ------------------------------------------------ # TEST_SRC_PATH := . TEST_OBJ_PATH := . # Gather all local object files. TEST_OBJS := $(sort $(patsubst $(TEST_SRC_PATH)/%.c, \ $(TEST_OBJ_PATH)/%.o, \ $(wildcard $(TEST_SRC_PATH)/*.c))) # Override the value of CINCFLAGS so that the value of CFLAGS returned by # get-frame-cflags-for() is not cluttered up with include paths needed only # while building BLIS. CINCFLAGS := -I$(INC_PATH) # Use the "framework" CFLAGS for the configuration family. CFLAGS := $(call get-user-cflags-for,$(CONFIG_NAME)) # Add local header paths to CFLAGS. CFLAGS += -I$(TEST_SRC_PATH) # Locate the libblis library to which we will link. LIBBLIS_LINK := $(LIB_PATH)/$(LIBBLIS_L) # Which library? BLI_DEF := -DBLIS BLA_DEF := -DBLAS # Single or multithreaded string STR_ST := -DTHR_STR=\"st\" STR_MT := -DTHR_STR=\"mt\" # Problem size specification PDEF_ST := -DP_BEGIN=40 \ -DP_END=2000 \ -DP_INC=40 PDEF_MT := -DP_BEGIN=160 \ -DP_END=8000 \ -DP_INC=160 # Enumerate possible datatypes and computation precisions. dts := s d c z prs := s d # Various functions that help us construct the datatype combinations and then # extract the needed datatype strings and C preprocessor define flags. get-char-c = $(word 1,$(subst _, ,$(1))) get-char-a = $(word 2,$(subst _, ,$(1))) get-char-b = $(word 3,$(subst _, ,$(1))) get-char-x = $(word 4,$(subst _, ,$(1))) get-cstr = $(call get-char-c,$(1))$(call get-char-a,$(1))$(call get-char-b,$(1))$(call get-char-x,$(1)) get-cdef-a = $(strip $(subst s,-DDTA=BLIS_FLOAT, \ $(subst d,-DDTA=BLIS_DOUBLE, \ $(subst c,-DDTA=BLIS_SCOMPLEX, \ $(subst z,-DDTA=BLIS_DCOMPLEX,$(call get-char-a,$(1))))))) get-cdef-b = $(strip $(subst s,-DDTB=BLIS_FLOAT, \ $(subst d,-DDTB=BLIS_DOUBLE, \ $(subst c,-DDTB=BLIS_SCOMPLEX, \ $(subst z,-DDTB=BLIS_DCOMPLEX,$(call get-char-b,$(1))))))) get-cdef-c = $(strip $(subst s,-DDTC=BLIS_FLOAT, \ $(subst d,-DDTC=BLIS_DOUBLE, \ $(subst c,-DDTC=BLIS_SCOMPLEX, \ $(subst z,-DDTC=BLIS_DCOMPLEX,$(call get-char-c,$(1))))))) get-cdef-x = $(strip $(subst s,-DDTX=BLIS_FLOAT, \ $(subst d,-DDTX=BLIS_DOUBLE,$(call get-char-x,$(1))))) get-cdefs = $(call get-cdef-c,$(1)) $(call get-cdef-a,$(1)) $(call get-cdef-b,$(1)) $(call get-cdef-x,$(1)) # Define a function to return the appropriate -DSTR= and -D[BLIS|BLAS] flags. get-idefs = $(strip $(subst intern,-DSTR=\"$(1)\" -DBLIS, \ $(subst ad_hoc,-DSTR=\"$(1)\" -DBLAS, \ $(subst mkl,-DSTR=\"$(1)\" -DBLAS,$(1))))) # Enumerate all possible datatype combinations. DT_CODES := $(foreach dt0,$(dts),$(foreach dt1,$(dts),$(foreach dt2,$(dts),$(foreach pr,$(prs),$(dt0)_$(dt1)_$(dt2)_$(pr))))) # Build a list of the datatype strings. DT_COMBOS := $(foreach code,$(DT_CODES),$(call get-cstr,$(code))) # Build a list of BLIS, OpenBLAS, and MKL executables. INTERN_OBJS_ST := $(foreach combo,$(DT_COMBOS),test_$(combo)gemm_intern_st.o) INTERN_BINS_ST := $(patsubst %.o,%.x,$(INTERN_OBJS_ST)) AD_HOC_OBJS_ST := $(foreach combo,$(DT_COMBOS),test_$(combo)gemm_ad_hoc_st.o) AD_HOC_BINS_ST := $(patsubst %.o,%.x,$(AD_HOC_OBJS_ST)) INTERN_OBJS_MT := $(foreach combo,$(DT_COMBOS),test_$(combo)gemm_intern_mt.o) INTERN_BINS_MT := $(patsubst %.o,%.x,$(INTERN_OBJS_MT)) AD_HOC_OBJS_MT := $(foreach combo,$(DT_COMBOS),test_$(combo)gemm_ad_hoc_mt.o) AD_HOC_BINS_MT := $(patsubst %.o,%.x,$(AD_HOC_OBJS_MT)) # # --- Targets/rules ------------------------------------------------------------ # all: st st: intern-st ad_hoc-st mt: intern-mt ad_hoc-mt intern-st: $(INTERN_BINS_ST) ad_hoc-st: $(AD_HOC_BINS_ST) intern-mt: $(INTERN_BINS_MT) ad_hoc-mt: $(AD_HOC_BINS_MT) #blis: test_ssssgemm_asm_blis_st.x \ # test_sssdgemm_asm_blis_st.x \ # test_ssdsgemm_asm_blis_st.x \ # test_sdssgemm_asm_blis_st.x \ # test_dsssgemm_asm_blis_st.x \ # test_dddsgemm_asm_blis_st.x \ # test_ddddgemm_asm_blis_st.x # --Object file rules -- # Define the function that will be used to instantiate compilation rules # for the various implementations. define make-st-rule test_$(call get-cstr,$(1))gemm_$(2)_st.o: test_gemm.c Makefile ifeq ($(ENABLE_VERBOSE),yes) $(CC) $(CFLAGS) $(PDEF_ST) $(call get-cdefs,$(1)) $(call get-idefs,$(2)) $(STR_ST) -c $$< -o $$@ else @echo "Compiling $$@" @$(CC) $(CFLAGS) $(PDEF_ST) $(call get-cdefs,$(1)) $(call get-idefs,$(2)) $(STR_ST) -c $$< -o $$@ endif endef define make-mt-rule test_$(call get-cstr,$(1))gemm_$(2)_mt.o: test_gemm.c Makefile ifeq ($(ENABLE_VERBOSE),yes) $(CC) $(CFLAGS) $(PDEF_MT) $(call get-cdefs,$(1)) $(call get-idefs,$(2)) $(STR_MT) -c $$< -o $$@ else @echo "Compiling $$@" @$(CC) $(CFLAGS) $(PDEF_MT) $(call get-cdefs,$(1)) $(call get-idefs,$(2)) $(STR_MT) -c $$< -o $$@ endif endef # Define the implementations for which we will instantiate compilation rules. IMPLS := intern ad_hoc # Instantiate the rule function make-st-rule() and make-mt-rule for each # implementation in IMPLS and each of the datatype "codes" in DT_CODES. $(foreach impl,$(IMPLS), \ $(foreach code,$(DT_CODES),$(eval $(call make-st-rule,$(code),$(impl))))) $(foreach impl,$(IMPLS), \ $(foreach code,$(DT_CODES),$(eval $(call make-mt-rule,$(code),$(impl))))) # -- Executable file rules -- # NOTE: For the BLAS test drivers, we place the BLAS libraries before BLIS # on the link command line in case BLIS was configured with the BLAS # compatibility layer. This prevents BLIS from inadvertently getting called # for the BLAS routines we are trying to test with. test_%_ad_hoc_st.x: test_%_ad_hoc_st.o $(LIBBLIS_LINK) ifeq ($(ENABLE_VERBOSE),yes) $(LINKER) $< $(LIBBLIS_LINK) $(LDFLAGS) -o $@ $(RM_F) $< else @@echo "Linking $@ to '$(LIBBLIS_LINK)'" @$(LINKER) $< $(LIBBLIS_LINK) $(LDFLAGS) -o $@ @$(RM_F) $< endif test_%_ad_hoc_mt.x: test_%_ad_hoc_mt.o $(LIBBLIS_LINK) ifeq ($(ENABLE_VERBOSE),yes) $(LINKER) $< $(LIBBLIS_LINK) $(LDFLAGS) -o $@ $(RM_F) $< else @@echo "Linking $@ to '$(LIBBLIS_LINK)'" @$(LINKER) $< $(LIBBLIS_LINK) $(LDFLAGS) -o $@ @$(RM_F) $< endif test_%_intern_st.x: test_%_intern_st.o $(LIBBLIS_LINK) ifeq ($(ENABLE_VERBOSE),yes) $(LINKER) $< $(LIBBLIS_LINK) $(LDFLAGS) -o $@ $(RM_F) $< else @@echo "Linking $@ to '$(LIBBLIS_LINK)'" @$(LINKER) $< $(LIBBLIS_LINK) $(LDFLAGS) -o $@ @$(RM_F) $< endif test_%_intern_mt.x: test_%_intern_mt.o $(LIBBLIS_LINK) ifeq ($(ENABLE_VERBOSE),yes) $(LINKER) $< $(LIBBLIS_LINK) $(LDFLAGS) -o $@ $(RM_F) $< else @@echo "Linking $@ to '$(LIBBLIS_LINK)'" @$(LINKER) $< $(LIBBLIS_LINK) $(LDFLAGS) -o $@ @$(RM_F) $< endif # -- Clean rules -- clean: cleanx cleanx: - $(RM_F) *.o *.x cleanout: - $(RM_F) *.m