amd/blis
1
0
Fork 0
mirror of https://github.com/amd/blis.git synced 2026-05-11 09:39:59 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
453deb29068889698e274f269c9aa90eea99b527
blis/Makefile
Field G. Van Zee 453deb2906 Implemented runtime kernel management. 
Details:
- Reworked the build system around a configuration registry file, named
  config_registry', that identifies valid configuration targets, their
  constituent sub-configurations, and the kernel sets that are needed by
  those sub-configurations. The build system now facilitates the building
  of a single library that can contains kernels and cache/register
  blocksizes for multiple configurations (microarchitectures). Reference
  kernels are also built on a per-configuration basis.
- Updated the Makefile to use new variables set by configure via the
  config.mk.in template, such as CONFIG_LIST, KERNEL_LIST, and KCONFIG_MAP,
  in determining which sub-configurations (CONFIG_LIST) and kernel sets
  (KERNEL_LIST) are included in the library, and which make_defs.mk files'
  CFLAGS (KCONFIG_MAP) are used when compiling kernels.
- Reorganized 'kernels' directory into a "flat" structure. Renamed kernel
  functions into a standard format that includes the kernel set name
  (e.g. 'haswell'). Created a "bli_kernels_<kernelset>.h" file in each
  kernels sub-directory. These files exist to provide prototypes for the
  kernels present in those directories.
- Reorganized reference kernels into a top-level 'ref_kernels' directory.
  This directory includes a new source file, bli_cntx_ref.c (compiled on
  a per-configuration basis), that defines the code needed to initialize
  a reference context and a context for induced methods for the
  microarchitecture in question.
- Rewrote make_defs.mk files in each configuration so that the compiler
  variables (e.g. CFLAGS) are "stored" (renamed) on a per-configuration
  basis.
- Modified bli_config.h.in template so that bli_config.h is generated with
  #defines for the config (family) name, the sub-configurations that are
  associated with the family, and the kernel sets needed by those
  sub-configurations.
- Deprecated all kernel-related information in bli_kernel.h and transferred
  what remains to new header files named "bli_arch_<configname>.h", which
  are conditionally #included from a new header bli_arch.h. These files
  are still needed to set library-wide parameters such as custom
  malloc()/free() functions or SIMD alignment values.
- Added bli_cntx_init_<configname>.c files to each configuration directory.
  The files contain a function, named the same as the file, that initializes
  a "native" context for a particular configuration (microarchitecture). The
  idea is that optimized kernels, if available, will be initialized into
  these contexts. Other fields will retain pointers to reference functions,
  which will be compiled on a per-configuration basis. These bli_cntx_init_*()
  functions will be called during the initialization of the global kernel
  structure. They are thought of as initializing for "native" execution, but
  they also form the basis for contexts that use induced methods. These
  functions are prototyped, along with their _ref() and _ind() brethren, by
  prototype-generating macros in bli_arch.h.
- Added a new typedef enum in bli_type_defs.h to define an arch_t, which
  identifies the various sub-configurations.
- Redesigned the global kernel structure (gks) around a 2D array of cntx_t
  structures (pointers to cntx_t, actually). The first dimension is indexed
  over arch_t and the inner dimension is the ind_t (induced method) for
  each microarchitecture. When a microarchitecture (configuration) is
  "registered" at init-time, the inner array for that configuration in the
  2D array is initialized (and allocated, if it hasn't been already). The
  cntx_t slot for BLIS_NAT is initialized immediately and those for other
  induced method types are initialized and cached on-demand, as needed. At
  cntx_t registration, we also store function pointers to cntx_init functions
  that will initialize (a) "reference" contexts and (b) contexts for use with
  induced methods. We don't cache the full contexts for reference contexts
  since they are rarely needed. The functions that initialize these two kinds
  of contexts are generated automatically for each targeted sub-configuration
  from cpp-templatized code at compile-time. Induced method contexts that
  need "stage" adjustments can still obtain them via functions in
  bli_cntx_ind_stage.c.
- Added new functions and functionality to bli_cntx.c, such as for setting
  the level-1f, level-1v, and packm kernels, and for converting a native
  context into one for executing an induced method.
- Moved the checking of register/cache blocksize consistency from being cpp
  macros in bli_kernel_macro_defs.h to being runtime checks defined in
  bli_check.c and called from bli_gks_register_cntx() at the time that the
  global kernel structure's internal context is initialized for a given
  microarchitecture/configuration.
- Deprecated all of the old per-operation bli_*_cntx.c files and removed
  the previous operation-level cntx_t_init()/_finalize() invocations.
  Instead, we now query the gks for a suitable context, usually via
  bli_gks_query_cntx().
- Deprecated support for the 3m2 and 3m3 induced methods. (They required
  hackery that I was no longer willing to support.)
- Consolidated the 1e and 1r packm kernels for any given register blocksize
  into a single kernel that will branch on the schema and support packing
  to both formats.
- Added the cntx_t* argument to all packm kernel signatures.
- Deprecated the local function pointer array in all bli_packm_cxk*.c files
  and instead obtain the packm kernel from the cntx_t.
- Added bli_calloc_intl(), which serves as the calloc-equivalent to to
  bli_malloc_intl(). Useful when we wish to allocate and initialize to
  zero/NULL.
- Converted existing cpp macro functions defined in bli_blksz.h, bli_func.h,
  bli_cntx.h into static functions.
2017-10-18 13:29:32 -05:00

1013 lines
36 KiB
Makefile
Raw Blame History

#
#
# 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 of The University of Texas at Austin 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
#
# Top-level makefile for libflame linear algebra library.
#
#
#
# --- Makefile PHONY target definitions ----------------------------------------
#
.PHONY: all libs test install uninstall clean \
check-env check-env-mk check-env-fragments check-env-make-defs \
testsuite testsuite-run testsuite-bin \
install-libs install-headers install-lib-symlinks \
showconfig \
cleanlib distclean cleanmk cleanleaves \
changelog \
uninstall-libs uninstall-headers uninstall-lib-symlinks \
uninstall-old
#
# --- Helper functions ---------------------------------------------------------
#
# Define a function to declare pattern-specific CFLAGS variables. This
# function is called from within each make_defs.mk file.
#define pattern-spec-cflags
#$(BASE_OBJ_PATH)/%-$(1).o: CFLAGS := $(CKOPTFLAGS) $(CVECFLAGS) \
# $(CDBGFLAGS) $(CWARNFLAGS) $(CPICFLAGS) \
# $(CTHREADFLAGS) $(CMISCFLAGS) $(CPPROCFLAGS) \
# $(INCLUDE_PATHS) $(VERS_DEF)
#endef
# Define functions that filters a list of filepaths $(1) that contain (or
# omit) an arbitrary substring $(2).
files-that-contain = $(strip $(foreach f, $(1), $(if $(findstring $(2),$(f)),$(f),)))
files-that-dont-contain = $(strip $(foreach f, $(1), $(if $(findstring $(2),$(f)),,$(f))))
# Define a function that stores the value of a variable to a different
# variable containing a specified suffix (corresponding to a configuration).
define store-var-for
$(strip $(1)).$(strip $(2)) := $($(strip $(1)))
endef
# Define a function that stores the value of all of the variables in a
# make_defs.mk file to other variables with the configuration (the
# argument $(1)) added as a suffix. This function is called once from
# each make_defs.mk. Also, add the configuration to CONFIGS_INCL.
define store-make-defs
$(eval $(call store-var-for,CC, $(1)))
$(eval $(call store-var-for,CC_VENDOR, $(1)))
$(eval $(call store-var-for,CPPROCFLAGS,$(1)))
$(eval $(call store-var-for,CMISCFLAGS, $(1)))
$(eval $(call store-var-for,CPICFLAGS, $(1)))
$(eval $(call store-var-for,CWARNFLAGS, $(1)))
$(eval $(call store-var-for,CDBGFLAGS, $(1)))
$(eval $(call store-var-for,COPTFLAGS, $(1)))
$(eval $(call store-var-for,CKOPTFLAGS, $(1)))
$(eval $(call store-var-for,CVECFLAGS, $(1)))
CONFIGS_INCL += $(1)
endef
# Define a function that retreives the value of a variable for a
# given configuration.
define load-var-for
$($(strip $(1)).$(strip $(2)))
endef
#
# --- Makefile initialization --------------------------------------------------
#
# The base name of the BLIS library that we will build.
BLIS_LIB_BASE_NAME := libblis
# Define the name of the common makefile.
COMMON_MK_FILE := common.mk
# All makefile fragments in the tree will have this name.
FRAGMENT_MK := .fragment.mk
# Locations of important files.
CONFIG_DIR := config
FRAME_DIR := frame
REFKERN_DIR := ref_kernels
KERNELS_DIR := kernels
BUILD_DIR := build
OBJ_DIR := obj
LIB_DIR := lib
TESTSUITE_DIR := testsuite
# Other kernel-related definitions.
KERNEL_SUFS := c s S
KERNELS_STR := kernels
REF_SUF := ref
# The names of the testsuite binary executable and related default names
# of its input/configuration files.
TESTSUITE_NAME := test_$(BLIS_LIB_BASE_NAME)
TESTSUITE_CONF_GEN := input.general
TESTSUITE_CONF_OPS := input.operations
TESTSUITE_OUT_FILE := output.testsuite
# CHANGELOG file.
CHANGELOG := CHANGELOG
#
# --- Include common makefile --------------------------------------------------
#
# Include the configuration file.
-include $(COMMON_MK_FILE)
# Detect whether we actually got the configuration file. If we didn't, then
# it is likely that the user has not yet generated it (via configure).
ifeq ($(strip $(COMMON_MK_INCLUDED)),yes)
COMMON_MK_PRESENT := yes
else
COMMON_MK_PRESENT := no
endif
# Construct paths to the three primary directories of source code:
# general framework code, reference kernel code, and optimized kernel
# code.
CONFIG_PATH := $(DIST_PATH)/$(CONFIG_DIR)
FRAME_PATH := $(DIST_PATH)/$(FRAME_DIR)
REFKERN_PATH := $(DIST_PATH)/$(REFKERN_DIR)
KERNELS_PATH := $(DIST_PATH)/$(KERNELS_DIR)
# Construct the base object file path for the current configuration.
BASE_OBJ_PATH := ./$(OBJ_DIR)/$(CONFIG_NAME)
# Construct base object file paths corresponding to the four locations
# of source code.
BASE_OBJ_CONFIG_PATH := $(BASE_OBJ_PATH)/$(CONFIG_DIR)
BASE_OBJ_FRAME_PATH := $(BASE_OBJ_PATH)/$(FRAME_DIR)
BASE_OBJ_REFKERN_PATH := $(BASE_OBJ_PATH)/$(REFKERN_DIR)
BASE_OBJ_KERNELS_PATH := $(BASE_OBJ_PATH)/$(KERNELS_DIR)
# Construct the base path for the library.
BASE_LIB_PATH := ./$(LIB_DIR)/$(CONFIG_NAME)
#
# --- Main target variable definitions -----------------------------------------
#
# Construct the architecture-version string, which will be used to name the
# library upon installation.
VERS_CONF := $(VERSION)-$(CONFIG_NAME)
# --- Library names ---
# Note: These names will be modified later to include the configuration and
# version strings.
BLIS_LIB_NAME := $(BLIS_LIB_BASE_NAME).a
BLIS_DLL_NAME := $(BLIS_LIB_BASE_NAME).so
# Append the base library path to the library names.
BLIS_LIB_PATH := $(BASE_LIB_PATH)/$(BLIS_LIB_NAME)
BLIS_DLL_PATH := $(BASE_LIB_PATH)/$(BLIS_DLL_NAME)
# --- BLIS framework source and object variable names ---
# These are the makefile variables that source code files will be accumulated
# into by the makefile fragments.
MK_CONFIG_SRC :=
MK_FRAME_SRC :=
MK_REFKERN_SRC :=
MK_KERNELS_SRC :=
# These hold object filenames corresponding to above.
MK_FRAME_OBJS :=
MK_REFKERN_OBJS :=
MK_KERNELS_OBJS :=
# --- Define install target names for static libraries ---
MK_BLIS_LIB := $(BLIS_LIB_PATH)
MK_BLIS_LIB_INST := $(patsubst $(BASE_LIB_PATH)/%.a, \
$(INSTALL_PREFIX)/lib/%.a, \
$(MK_BLIS_LIB))
MK_BLIS_LIB_INST_W_VERS_CONF := $(patsubst $(BASE_LIB_PATH)/%.a, \
$(INSTALL_PREFIX)/lib/%-$(VERS_CONF).a, \
$(MK_BLIS_LIB))
# --- Define install target names for shared libraries ---
MK_BLIS_DLL := $(BLIS_DLL_PATH)
MK_BLIS_DLL_INST := $(patsubst $(BASE_LIB_PATH)/%.so, \
$(INSTALL_PREFIX)/lib/%.so, \
$(MK_BLIS_DLL))
MK_BLIS_DLL_INST_W_VERS_CONF := $(patsubst $(BASE_LIB_PATH)/%.so, \
$(INSTALL_PREFIX)/lib/%-$(VERS_CONF).so, \
$(MK_BLIS_DLL))
# --- Determine which libraries to build ---
MK_LIBS :=
MK_LIBS_INST :=
MK_LIBS_INST_W_VERS_CONF :=
ifeq ($(BLIS_ENABLE_STATIC_BUILD),yes)
MK_LIBS += $(MK_BLIS_LIB)
MK_LIBS_INST += $(MK_BLIS_LIB_INST)
MK_LIBS_INST_W_VERS_CONF += $(MK_BLIS_LIB_INST_W_VERS_CONF)
endif
ifeq ($(BLIS_ENABLE_DYNAMIC_BUILD),yes)
MK_LIBS += $(MK_BLIS_DLL)
MK_LIBS_INST += $(MK_BLIS_DLL_INST)
MK_LIBS_INST_W_VERS_CONF += $(MK_BLIS_DLL_INST_W_VERS_CONF)
endif
# Strip leading, internal, and trailing whitespace.
MK_LIBS_INST := $(strip $(MK_LIBS_INST))
MK_LIBS_INST_W_VERS_CONF := $(strip $(MK_LIBS_INST_W_VERS_CONF))
# Set the include directory names
MK_INCL_DIR_INST := $(INSTALL_PREFIX)/include/blis
#
# --- Include makefile fragments -----------------------------------------------
#
# Initialize our list of directory paths to makefile fragments with the empty
# list. This variable will accumulate all of the directory paths in which
# makefile fragments reside.
FRAGMENT_DIR_PATHS :=
# Construct paths to each of the sub-configurations specified in the
# configuration list. If CONFIG_NAME is not in CONFIG_LIST, include it in
# CONFIG_PATHS since we'll need access to its header files.
ifeq ($(findstring $(CONFIG_NAME),$(CONFIG_LIST)),)
CONFIG_PATHS := $(addprefix $(CONFIG_PATH)/, $(CONFIG_NAME) $(CONFIG_LIST))
else
CONFIG_PATHS := $(addprefix $(CONFIG_PATH)/, $(CONFIG_LIST))
endif
# This variable is used by the include statements as they recursively include
# one another. For the 'config' directory, we initialize it to that directory
# in preparation to include the fragments in the configuration sub-directory.
PARENT_PATH := $(DIST_PATH)/$(CONFIG_DIR)
# Recursively include the makefile fragments in each of the sub-configuration
# directories.
-include $(addsuffix /$(FRAGMENT_MK), $(CONFIG_PATHS))
# Construct paths to each of the kernel sets required by the sub-configurations
# in the configuration list.
KERNEL_PATHS := $(addprefix $(KERNELS_PATH)/, $(KERNEL_LIST))
# This variable is used by the include statements as they recursively include
# one another. For the 'kernels' directory, we initialize it to that directory
# in preparation to include the fragments in the configuration sub-directory.
PARENT_PATH := $(DIST_PATH)/$(KERNELS_DIR)
# Recursively include the makefile fragments in each of the kernels sub-
# directories.
-include $(addsuffix /$(FRAGMENT_MK), $(KERNEL_PATHS))
# This variable is used by the include statements as they recursively include
# one another. For the framework and reference kernel source trees (ie: the
# 'frame' and 'ref_kernels' directories), we initialize it to the top-level
# directory since that is its parent. Same for the kernels directory, since it
# resides in the same top-level directory.
PARENT_PATH := $(DIST_PATH)
# Recursively include all the makefile fragments in the directories for the
# reference kernels and portable framework.
-include $(addsuffix /$(FRAGMENT_MK), $(REFKERN_PATH))
-include $(addsuffix /$(FRAGMENT_MK), $(FRAME_PATH))
# Create a list of the makefile fragments.
MAKEFILE_FRAGMENTS := $(addsuffix /$(FRAGMENT_MK), $(FRAGMENT_DIR_PATHS))
# Detect whether we actually got any makefile fragments. If we didn't, then it
# is likely that the user has not yet generated them (via configure).
ifeq ($(strip $(MAKEFILE_FRAGMENTS)),)
MAKEFILE_FRAGMENTS_PRESENT := no
else
MAKEFILE_FRAGMENTS_PRESENT := yes
endif
#
# --- Compiler include path definitions ----------------------------------------
#
# Expand the fragment paths that contain .h files to attain the set of header
# files present in all fragment paths.
MK_HEADER_FILES := $(foreach frag_path, . $(FRAGMENT_DIR_PATHS), \
$(wildcard $(frag_path)/*.h))
# Strip the leading, internal, and trailing whitespace from our list of header
# files. This makes the "make install-headers" much more readable.
MK_HEADER_FILES := $(strip $(MK_HEADER_FILES))
# Expand the fragment paths that contain .h files, and take the first
# expansion. Then, strip the header filename to leave the path to each header
# location. Notice this process even weeds out duplicates!
MK_HEADER_DIR_PATHS := $(dir $(foreach frag_path, . $(FRAGMENT_DIR_PATHS), \
$(firstword $(wildcard $(frag_path)/*.h))))
# Add -I to each header path so we can specify our include search paths to the
# C compiler.
INCLUDE_PATHS := $(strip $(patsubst %, -I%, $(MK_HEADER_DIR_PATHS)))
#
# --- Special preprocessor macro definitions -----------------------------------
#
# Define a C preprocessor macro to communicate the current version so that it
# can be embedded into the library and queried later.
VERS_DEF := -DBLIS_VERSION_STRING=\"$(VERSION)\"
#
# --- Library object definitions -----------------------------------------------
#
# In this section, we will isolate the relevant source code filepaths and
# convert them to lists of object filepaths. Relevant source code falls into
# four categories: configuration source; architecture-specific kernel source;
# reference kernel source; and general framework source.
# $(call gen-obj-paths-from-src file_exts, src_files, base_src_path, base_obj_path)
#gen-obj-paths-from-src = $(foreach ch, $(1), \
# $(patsubst $(3)/%.$(ch), \
# $(4)/%.o, \
# $(2) \
# ) \
# )
# First, identify the source code found in the configuration sub-directories.
MK_CONFIG_C := $(filter %.c, $(MK_CONFIG_SRC))
MK_CONFIG_S := $(filter %.s, $(MK_CONFIG_SRC))
MK_CONFIG_SS := $(filter %.S, $(MK_CONFIG_SRC))
MK_CONFIG_C_OBJS := $(patsubst $(CONFIG_PATH)/%.c, $(BASE_OBJ_CONFIG_PATH)/%.o, \
$(MK_CONFIG_C) \
)
MK_CONFIG_S_OBJS := $(patsubst $(CONFIG_PATH)/%.s, $(BASE_OBJ_CONFIG_PATH)/%.o, \
$(MK_CONFIG_S) \
)
MK_CONFIG_SS_OBJS := $(patsubst $(CONFIG_PATH)/%.S, $(BASE_OBJ_CONFIG_PATH)/%.o, \
$(MK_CONFIG_SS) \
)
MK_CONFIG_OBJS := $(MK_CONFIG_C_OBJS) \
$(MK_CONFIG_S_OBJS) \
$(MK_CONFIG_SS_OBJS)
# A more concise but obfuscated way of encoding the above lines.
#MK_CONFIG_OBJS := $(call gen-obj-paths-from-src c s S,
# $(MK_CONFIG_SRC),
# $(CONFIG_PATH),
# $(BASE_OBJ_CONFIG_PATH)
# )
# Now, identify all of the architecture-specific kernel source code. We
# start by filtering only .c and .[sS] files (ignoring any .h files, though
# there shouldn't be any), and then instantiating object file paths from the
# source file paths. Note that MK_KERNELS_SRC is already limited to the
# kernel source corresponding to the kernel sets in KERNEL_LIST. This
# is because the configure script only propogated makefile fragments into
# those specific kernel subdirectories.
MK_KERNELS_C := $(filter %.c, $(MK_KERNELS_SRC))
MK_KERNELS_S := $(filter %.s, $(MK_KERNELS_SRC))
MK_KERNELS_SS := $(filter %.S, $(MK_KERNELS_SRC))
MK_KERNELS_C_OBJS := $(patsubst $(KERNELS_PATH)/%.c, $(BASE_OBJ_KERNELS_PATH)/%.o, \
$(MK_KERNELS_C) \
)
MK_KERNELS_S_OBJS := $(patsubst $(KERNELS_PATH)/%.s, $(BASE_OBJ_KERNELS_PATH)/%.o, \
$(MK_KERNELS_S) \
)
MK_KERNELS_SS_OBJS := $(patsubst $(KERNELS_PATH)/%.S, $(BASE_OBJ_KERNELS_PATH)/%.o, \
$(MK_KERNELS_SS) \
)
MK_KERNELS_OBJS := $(MK_KERNELS_C_OBJS) \
$(MK_KERNELS_S_OBJS) \
$(MK_KERNELS_SS_OBJS)
# Next, identify all of the reference kernel source code, then filter only
# .c files (ignoring .h files), and finally instantiate object file paths
# from the source files paths once for each sub-configuration in CONFIG_LIST,
# appending the name of the sub-config to the object filename.
MK_REFKERN_C := $(filter %.c, $(MK_REFKERN_SRC))
MK_REFKERN_OBJS := $(foreach arch, $(CONFIG_LIST), \
$(patsubst $(REFKERN_PATH)/%_$(REF_SUF).c, \
$(BASE_OBJ_REFKERN_PATH)/$(arch)/%_$(arch)_$(REF_SUF).o, \
$(MK_REFKERN_C) \
) \
)
# And now, identify all of the portable framework source code, then filter
# only .c files (ignoring .h files), and finally instantiate object file
# paths from the source file paths.
MK_FRAME_C := $(filter %.c, $(MK_FRAME_SRC))
MK_FRAME_OBJS := $(patsubst $(FRAME_PATH)/%.c, $(BASE_OBJ_FRAME_PATH)/%.o, \
$(MK_FRAME_C) \
)
# Combine all of the object files into some readily-accessible variables.
MK_BLIS_OBJS := $(MK_CONFIG_OBJS) \
$(MK_KERNELS_OBJS) \
$(MK_REFKERN_OBJS) \
$(MK_FRAME_OBJS)
# Optionally filter out the BLAS and CBLAS compatibility layer object files.
# This is not actually necessary, since each affected file is guarded by C
# preprocessor macros, but it but prevents "empty" object files from being
# added into the library (and reduces compilation time).
BASE_OBJ_BLAS_PATH := $(BASE_OBJ_FRAME_PATH)/compat
BASE_OBJ_CBLAS_PATH := $(BASE_OBJ_FRAME_PATH)/compat/cblas
ifeq ($(BLIS_ENABLE_CBLAS),no)
MK_BLIS_OBJS := $(filter-out $(BASE_OBJ_CBLAS_PATH)/%.o, $(MK_BLIS_OBJS) )
endif
ifeq ($(BLIS_ENABLE_BLAS2BLIS),no)
MK_BLIS_OBJS := $(filter-out $(BASE_OBJ_BLAS_PATH)/%.o, $(MK_BLIS_OBJS) )
endif
#
# --- Test suite definitions ---------------------------------------------------
#
# The location of the test suite's general and operations-specific
# input/configuration files.
TESTSUITE_CONF_GEN_PATH := $(DIST_PATH)/$(TESTSUITE_DIR)/$(TESTSUITE_CONF_GEN)
TESTSUITE_CONF_OPS_PATH := $(DIST_PATH)/$(TESTSUITE_DIR)/$(TESTSUITE_CONF_OPS)
# The locations of the test suite source directory and the local object
# directory.
TESTSUITE_SRC_PATH := $(DIST_PATH)/$(TESTSUITE_DIR)/src
BASE_OBJ_TESTSUITE_PATH := $(BASE_OBJ_PATH)/$(TESTSUITE_DIR)
# Convert source file paths to object file paths by replacing the base source
# directories with the base object directories, and also replacing the source
# file suffix (eg: '.c') with '.o'.
MK_TESTSUITE_OBJS := $(patsubst $(TESTSUITE_SRC_PATH)/%.c, \
$(BASE_OBJ_TESTSUITE_PATH)/%.o, \
$(wildcard $(TESTSUITE_SRC_PATH)/*.c))
# The test suite binary executable filename.
ifeq ($(CONFIG_NAME),pnacl)
# Linked executable
MK_TESTSUITE_BIN_UNSTABLE := $(BASE_OBJ_TESTSUITE_PATH)/test_libblis.unstable.pexe
# Finalized executable
MK_TESTSUITE_BIN_PNACL := $(BASE_OBJ_TESTSUITE_PATH)/test_libblis.pexe
# Translated executable (for x86-64)
TESTSUITE_BIN := test_libblis.x86-64.nexe
else
ifeq ($(CONFIG_NAME),emscripten)
# JS script name.
TESTSUITE_BIN := test_libblis.js
else
# Binary executable name.
TESTSUITE_BIN := test_libblis.x
endif # emscripten
endif # pnacl
#
# --- Uninstall definitions ----------------------------------------------------
#
# This shell command grabs all files named "libblis-*.a" or "libblis-*.so" in
# the installation directory and then filters out the name of the library
# archive for the current version/configuration. We consider this remaining set
# of libraries to be "old" and eligible for removal upon running of the
# uninstall-old target.
UNINSTALL_LIBS := $(shell $(FIND) $(INSTALL_PREFIX)/lib/ -name "$(BLIS_LIB_BASE_NAME)-*.[a|so]" 2> /dev/null | $(GREP) -v "$(BLIS_LIB_BASE_NAME)-$(VERS_CONF).[a|so]" | $(GREP) -v $(BLIS_LIB_NAME))
#
# --- Targets/rules ------------------------------------------------------------
#
# --- Primary targets ---
all: libs
libs: blis-lib
test: testsuite
install: libs install-libs install-headers install-lib-symlinks
uninstall: uninstall-libs uninstall-lib-symlinks uninstall-headers
clean: cleanlib cleantest
# --- General source code / object code rules ---
# Define some functions that return the appropriate CFLAGS for a given
# configuration. This assumes that the make_defs.mk files have already been
# included, which results in those values having been stored to
# configuration-qualified variables.
get-noopt-cflags-for = $(call load-var-for,CDBGFLAGS,$(1)) \
$(call load-var-for,CWARNFLAGS,$(1)) \
$(call load-var-for,CPICFLAGS,$(1)) \
$(call load-var-for,CMISCFLAGS,$(1)) \
$(call load-var-for,CPPROCFLAGS,$(1)) \
$(CTHREADFLAGS) \
$(INCLUDE_PATHS) $(VERS_DEF)
get-kernel-cflags-for = $(call load-var-for,CKOPTFLAGS,$(1)) \
$(call load-var-for,CVECFLAGS,$(1)) \
$(call get-noopt-cflags-for,$(1))
get-refkern-cflags-for = $(call get-kernel-cflags-for,$(1)) \
-DBLIS_CNAME=$(1)
get-frame-cflags-for = $(call load-var-for,COPTFLAGS,$(1)) \
$(call load-var-for,CVECFLAGS,$(1)) \
$(call get-noopt-cflags-for,$(1))
get-config-cflags-for = $(call get-kernel-cflags-for,$(1))
get-noopt-text = "(CFLAGS for no optimization)"
get-kernel-text-for = "('$(1)' CFLAGS for kernels)"
get-refkern-text-for = "('$(1)' CFLAGS for ref. kernels)"
get-frame-text-for = "('$(1)' CFLAGS for framework code)"
get-config-text-for = "('$(1)' CFLAGS for config code)"
# FGVZ: Add support for compiling .s and .S files in 'config'/'kernels'
# directories.
# - May want to add an extra foreach loop around function eval/call.
# first argument: a configuration name from config_list, used to look up the
# CFLAGS to use during compilation.
define make-config-rule
$(BASE_OBJ_CONFIG_PATH)/$(1)/%.o: $(CONFIG_PATH)/$(1)/%.c $(MK_HEADER_FILES) $(MAKE_DEFS_MK_PATHS)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(CC) $(call get-config-cflags-for,$(1)) -c $$< -o $$@
else
@echo "Compiling $$@" $(call get-config-text-for,$(1))
@$(CC) $(call get-config-cflags-for,$(1)) -c $$< -o $$@
endif
endef
# first argument: a configuration name from the union of config_list and
# config_name, used to look up the CFLAGS to use during compilation.
define make-frame-rule
$(BASE_OBJ_FRAME_PATH)/%.o: $(FRAME_PATH)/%.c $(MK_HEADER_FILES) $(MAKE_DEFS_MK_PATHS)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(CC) $(call get-frame-cflags-for,$(1)) -c $$< -o $$@
else
@echo "Compiling $$@" $(call get-frame-text-for,$(1))
@$(CC) $(call get-frame-cflags-for,$(1)) -c $$< -o $$@
endif
endef
# first argument: a kernel set (name) being targeted (e.g. haswell).
define make-refkern-rule
$(BASE_OBJ_REFKERN_PATH)/$(1)/%_$(1)_ref.o: $(REFKERN_PATH)/%_ref.c $(MK_HEADER_FILES) $(MAKE_DEFS_MK_PATHS)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(CC) $(call get-refkern-cflags-for,$(1)) -c $$< -o $$@
else
@echo "Compiling $$@" $(call get-refkern-text-for,$(1))
@$(CC) $(call get-refkern-cflags-for,$(1)) -c $$< -o $$@
endif
endef
# first argument: a kernel set (name) being targeted (e.g. haswell).
# second argument: the configuration whose CFLAGS we should use in compilation.
# third argument: the kernel file suffix being considered.
#$(BASE_OBJ_KERNELS_PATH)/$(1)/%.o: $(KERNELS_PATH)/$(1)/%.$(3) $(MK_HEADER_FILES) $(MAKE_DEFS_MK_PATHS)
define make-kernels-rule
$(BASE_OBJ_KERNELS_PATH)/$(1)/%.o: $(KERNELS_PATH)/$(1)/%.c $(MK_HEADER_FILES) $(MAKE_DEFS_MK_PATHS)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(CC) $(call get-kernel-cflags-for,$(2)) -c $$< -o $$@
else
@echo "Compiling $$@" $(call get-kernel-text-for,$(1))
@$(CC) $(call get-kernel-cflags-for,$(2)) -c $$< -o $$@
endif
endef
# Define functions to choose the correct sub-configuration name for the
# given kernel set. This function is called when instantiating the
# make-kernels-rule.
get-config-for-kset = $(lastword $(subst :, ,$(filter $(1):%,$(KCONFIG_MAP))))
# Instantiate the build rule for files in the configuration directory for
# each of the sub-configurations in CONFIG_LIST with the CFLAGS designated
# for that sub-configuration.
$(foreach conf, $(CONFIG_LIST), $(eval $(call make-config-rule,$(conf))))
# Instantiate the build rule for non-kernel framework files. Use the CFLAGS for
# the configuration family, which exists in the directory whose name is equal to
# CONFIG_NAME. (BTW: If it is a singleton family, then CONFIG_NAME is equal to
# CONFIG_LIST.)
#$(eval $(call make-frame-rule,$(firstword $(CONFIG_NAME))))
$(foreach conf, $(CONFIG_NAME), $(eval $(call make-frame-rule,$(conf))))
# Instantiate the build rule for reference kernels for each of the sub-
# configurations in CONFIG_LIST with the CFLAGS designated for that sub-
# configuration.
$(foreach conf, $(CONFIG_LIST), $(eval $(call make-refkern-rule,$(conf))))
$(info kernel list: $(KERNEL_LIST))
$(info getconfig: $(call get-config-for-kset,haswell))
# Instantiate the build rule for optimized kernels for each of the kernel
# sets in KERNEL_LIST with the CFLAGS designated for the sub-configuration
# specified by the KCONFIG_MAP.
$(foreach kset, $(KERNEL_LIST), $(eval $(call make-kernels-rule,$(kset),$(call get-config-for-kset,$(kset)))))
# FGVZ: for later, to compile multiple kernel source suffixes.
#$(foreach suf, $(KERNEL_SUFS), \
#$(foreach kset, $(KERNEL_LIST), $(eval $(call make-kernels-rule,$(kset),$(suf)))))
# --- Environment check rules ---
check-env: check-env-make-defs check-env-fragments check-env-mk
check-env-mk:
ifeq ($(CONFIG_MK_PRESENT),no)
$(error Cannot proceed: config.mk not detected! Run configure first)
endif
check-env-fragments: check-env-mk
ifeq ($(MAKEFILE_FRAGMENTS_PRESENT),no)
$(error Cannot proceed: makefile fragments not detected! Run configure first)
endif
check-env-make-defs: check-env-fragments
ifeq ($(ALL_MAKE_DEFS_MK_PRESENT),no)
$(error Cannot proceed: Some make_defs.mk files not found or mislabeled!)
endif
# --- All-purpose library rule (static and shared) ---
blis-lib: check-env $(MK_LIBS)
# --- Static library archiver rules ---
$(MK_BLIS_LIB): $(MK_BLIS_OBJS)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(AR) $(ARFLAGS) $@ $?
$(RANLIB) $@
else
@echo "Archiving $@"
@$(AR) $(ARFLAGS) $@ $?
@$(RANLIB) $@
endif
# --- Dynamic library linker rules ---
$(MK_BLIS_DLL): $(MK_BLIS_OBJS)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(LINKER) $(SOFLAGS) $(LDFLAGS) -o $@ $?
else
@echo "Dynamically linking $@"
@$(LINKER) $(SOFLAGS) $(LDFLAGS) -o $@ $?
endif
# --- Test suite rules ---
testsuite: testsuite-run
testsuite-bin: check-env $(TESTSUITE_BIN)
$(BASE_OBJ_TESTSUITE_PATH)/%.o: $(TESTSUITE_SRC_PATH)/%.c
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(CC) $(CFLAGS) -c $< -o $@
else
@echo "Compiling $<"
@$(CC) $(CFLAGS) -c $< -o $@
endif
ifeq ($(CONFIG_NAME),pnacl)
# Link executable (produces unstable LLVM bitcode)
$(MK_TESTSUITE_BIN_UNSTABLE): $(MK_TESTSUITE_OBJS) $(MK_BLIS_LIB)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(LINKER) $(MK_TESTSUITE_OBJS) $(MK_BLIS_LIB) $(LDFLAGS) -o $@
else
@echo "Linking $@ against '$(MK_BLIS_LIB) $(LDFLAGS)'"
@$(LINKER) $(MK_TESTSUITE_OBJS) $(MK_BLIS_LIB) $(LDFLAGS) -o $@
endif
# Finalize PNaCl executable (i.e. convert from LLVM bitcode to PNaCl bitcode)
$(MK_TESTSUITE_BIN_PNACL): $(MK_TESTSUITE_BIN_UNSTABLE)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(FINALIZER) $(FINFLAGS) -o $@ $<
else
@echo "Finalizing $@"
@$(FINALIZER) $(FINFLAGS) -o $@ $<
endif
# Translate PNaCl executable to x86-64 NaCl executable
$(TESTSUITE_BIN): $(MK_TESTSUITE_BIN_PNACL)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(TRANSLATOR) $(TRNSFLAGS) $(TRNSAMD64FLAGS) $< -o $@
else
@echo "Translating $< -> $@"
@$(TRANSLATOR) $(TRNSFLAGS) $(TRNSAMD64FLAGS) $< -o $@
endif
else # Non-PNaCl case
ifeq ($(CONFIG_NAME),emscripten)
# Generate JavaScript and embed testsuite resources normally
$(TESTSUITE_BIN): $(MK_TESTSUITE_OBJS) $(MK_BLIS_LIB) $(TESTSUITE_CONF_GEN_PATH) $(TESTSUITE_CONF_OPS_PATH)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(LINKER) $(MK_TESTSUITE_OBJS) $(MK_BLIS_LIB) $(LDFLAGS) -o $@ \
--embed-file $(TESTSUITE_CONF_GEN_PATH)@input.general \
--embed-file $(TESTSUITE_CONF_OPS_PATH)@input.operations
else
@echo "Linking $@ against '$(MK_BLIS_LIB) $(LDFLAGS)'"
@$(LINKER) $(MK_TESTSUITE_OBJS) $(MK_BLIS_LIB) $(LDFLAGS) -o $@ \
--embed-file $(TESTSUITE_CONF_GEN_PATH)@input.general \
--embed-file $(TESTSUITE_CONF_OPS_PATH)@input.operations
endif
else
# Link executable normally
$(TESTSUITE_BIN): $(MK_TESTSUITE_OBJS) $(MK_BLIS_LIB)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(LINKER) $(MK_TESTSUITE_OBJS) $(MK_BLIS_LIB) $(LDFLAGS) -o $@
else
@echo "Linking $@ against '$(MK_BLIS_LIB) $(LDFLAGS)'"
@$(LINKER) $(MK_TESTSUITE_OBJS) $(MK_BLIS_LIB) $(LDFLAGS) -o $@
endif
endif
endif
testsuite-run: testsuite-bin
ifeq ($(CONFIG_NAME),pnacl)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(NACL_SDK_ROOT)/tools/sel_ldr_x86_64 -a -c -q \
-B $(NACL_SDK_ROOT)/tools/irt_core_x86_64.nexe -- \
$(TESTSUITE_BIN) -g $(TESTSUITE_CONF_GEN_PATH) \
-o $(TESTSUITE_CONF_OPS_PATH) \
> $(TESTSUITE_OUT_FILE)
else
@echo "Running $(TESTSUITE_BIN) with output redirected to '$(TESTSUITE_OUT_FILE)'"
@$(NACL_SDK_ROOT)/tools/sel_ldr_x86_64 -a -c -q \
-B $(NACL_SDK_ROOT)/tools/irt_core_x86_64.nexe -- \
$(TESTSUITE_BIN) -g $(TESTSUITE_CONF_GEN_PATH) \
-o $(TESTSUITE_CONF_OPS_PATH) \
> $(TESTSUITE_OUT_FILE)
endif
else
ifeq ($(CONFIG_NAME),emscripten)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(JSINT) $(TESTSUITE_BIN)
else
@echo "Running $(TESTSUITE_BIN)"
@$(JSINT) $(TESTSUITE_BIN)
endif
else # non-pnacl, non-emscripten case
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
./$(TESTSUITE_BIN) -g $(TESTSUITE_CONF_GEN_PATH) \
-o $(TESTSUITE_CONF_OPS_PATH) \
> $(TESTSUITE_OUT_FILE)
else ifeq ($(BLIS_ENABLE_TEST_OUTPUT), yes)
./$(TESTSUITE_BIN) -g $(TESTSUITE_CONF_GEN_PATH) \
-o $(TESTSUITE_CONF_OPS_PATH) | \
tee $(TESTSUITE_OUT_FILE)
else
@echo "Running $(TESTSUITE_BIN) with output redirected to '$(TESTSUITE_OUT_FILE)'"
@./$(TESTSUITE_BIN) -g $(TESTSUITE_CONF_GEN_PATH) \
-o $(TESTSUITE_CONF_OPS_PATH) \
> $(TESTSUITE_OUT_FILE)
endif
endif # emscripten
endif # pnacl
# --- Install rules ---
install-libs: check-env $(MK_LIBS_INST_W_VERS_CONF)
install-headers: check-env $(MK_INCL_DIR_INST)
$(MK_INCL_DIR_INST): $(MK_HEADER_FILES) $(CONFIG_MK_FILE)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(MKDIR) $(@)
$(INSTALL) -m 0644 $(MK_HEADER_FILES) $(@)
else
@$(MKDIR) $(@)
@echo "Installing C header files into $(@)/"
@$(INSTALL) -m 0644 $(MK_HEADER_FILES) $(@)
endif
$(INSTALL_PREFIX)/lib/%-$(VERS_CONF).a: $(BASE_LIB_PATH)/%.a $(CONFIG_MK_FILE)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(MKDIR) $(@D)
$(INSTALL) -m 0644 $< $@
else
@echo "Installing $(@F) into $(INSTALL_PREFIX)/lib/"
@$(MKDIR) $(@D)
@$(INSTALL) -m 0644 $< $@
endif
$(INSTALL_PREFIX)/lib/%-$(VERS_CONF).so: $(BASE_LIB_PATH)/%.so $(CONFIG_MK_FILE)
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(MKDIR) $(@D)
$(INSTALL) -m 0644 $< $@
else
@echo "Installing $(@F) into $(INSTALL_PREFIX)/lib/"
@$(MKDIR) $(@D)
@$(INSTALL) -m 0644 $< $@
endif
# --- Install-symlinks rules ---
install-lib-symlinks: check-env $(MK_LIBS_INST)
$(INSTALL_PREFIX)/lib/%.a: $(INSTALL_PREFIX)/lib/%-$(VERS_CONF).a
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(SYMLINK) $(<F) $(@F)
$(MV) $(@F) $(INSTALL_PREFIX)/lib/
else
@echo "Installing symlink $(@F) into $(INSTALL_PREFIX)/lib/"
@$(SYMLINK) $(<F) $(@F)
@$(MV) $(@F) $(INSTALL_PREFIX)/lib/
endif
$(INSTALL_PREFIX)/lib/%.so: $(INSTALL_PREFIX)/lib/%-$(VERS_CONF).so
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
$(SYMLINK) $(<F) $(@F)
$(MV) $(@F) $(INSTALL_PREFIX)/lib/
else
@echo "Installing symlink $(@F) into $(INSTALL_PREFIX)/lib/"
@$(SYMLINK) $(<F) $(@F)
@$(MV) $(@F) $(INSTALL_PREFIX)/lib/
endif
# --- Query current configuration ---
showconfig: check-env
@echo "Current configuration family ($(CONFIG_NAME)) supports the following"
@echo "sub-configurations: $(CONFIG_LIST)"
@echo "requisite kernels: $(KERNEL_LIST)"
# --- Clean rules ---
cleanlib: check-env
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
- $(FIND) $(BASE_OBJ_PATH) -name "*.o" | $(XARGS) $(RM_F)
- $(FIND) $(BASE_LIB_PATH) -name "*.a" | $(XARGS) $(RM_F)
- $(FIND) $(BASE_LIB_PATH) -name "*.so" | $(XARGS) $(RM_F)
else
@echo "Removing .o files from $(BASE_OBJ_PATH)."
@- $(FIND) $(BASE_OBJ_PATH) -name "*.o" | $(XARGS) $(RM_F)
@echo "Removing .a files from $(BASE_LIB_PATH)."
@- $(FIND) $(BASE_LIB_PATH) -name "*.a" | $(XARGS) $(RM_F)
@echo "Removing .so files from $(BASE_LIB_PATH)."
@- $(FIND) $(BASE_LIB_PATH) -name "*.so" | $(XARGS) $(RM_F)
endif
cleantest: check-env
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
- $(FIND) $(BASE_OBJ_TESTSUITE_PATH) \( -name "*.o" -o -name "*.pexe" \) | $(XARGS) $(RM_F)
- $(RM_RF) $(TESTSUITE_BIN)
else
@echo "Removing object files from $(BASE_OBJ_TESTSUITE_PATH)."
@- $(FIND) $(BASE_OBJ_TESTSUITE_PATH) \( -name "*.o" -o -name "*.pexe" \) | $(XARGS) $(RM_F)
@echo "Removing $(TESTSUITE_BIN) binary."
@- $(RM_RF) $(TESTSUITE_BIN)
endif
cleanmk: check-env
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
- $(FIND) $(CONFIG_PATH) -name "$(FRAGMENT_MK)" | $(XARGS) $(RM_F)
- $(FIND) $(FRAME_PATH) -name "$(FRAGMENT_MK)" | $(XARGS) $(RM_F)
- $(FIND) $(REFKERN_PATH) -name "$(FRAGMENT_MK)" | $(XARGS) $(RM_F)
- $(FIND) $(KERNELS_PATH) -name "$(FRAGMENT_MK)" | $(XARGS) $(RM_F)
else
@echo "Removing makefile fragments from $(CONFIG_PATH)."
@- $(FIND) $(CONFIG_PATH) -name "$(FRAGMENT_MK)" | $(XARGS) $(RM_F)
@echo "Removing makefile fragments from $(FRAME_PATH)."
@- $(FIND) $(FRAME_PATH) -name "$(FRAGMENT_MK)" | $(XARGS) $(RM_F)
@echo "Removing makefile fragments from $(REFKERN_PATH)."
@- $(FIND) $(REFERKN_PATH) -name "$(FRAGMENT_MK)" | $(XARGS) $(RM_F)
@echo "Removing makefile fragments from $(KERNELS_PATH)."
@- $(FIND) $(KERNELS_PATH) -name "$(FRAGMENT_MK)" | $(XARGS) $(RM_F)
endif
distclean: check-env cleanmk cleanlib cleantest
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
- $(RM_F) $(CONFIG_MK_FILE)
- $(RM_RF) $(TESTSUITE_OUT_FILE)
- $(RM_RF) $(OBJ_DIR)
- $(RM_RF) $(LIB_DIR)
else
@echo "Removing $(CONFIG_MK_FILE)."
@- $(RM_F) $(CONFIG_MK_FILE)
@echo "Removing $(TESTSUITE_OUT_FILE)."
@- $(RM_F) $(TESTSUITE_OUT_FILE)
@echo "Removing $(OBJ_DIR)."
@- $(RM_RF) $(OBJ_DIR)
@echo "Removing $(LIB_DIR)."
@- $(RM_RF) $(LIB_DIR)
endif
# --- CHANGELOG rules ---
changelog: check-env
@echo "Updating '$(DIST_PATH)/$(CHANGELOG)' via '$(GIT_LOG)'."
@$(GIT_LOG) > $(DIST_PATH)/$(CHANGELOG)
# --- Uninstall rules ---
uninstall-old: $(UNINSTALL_LIBS)
uninstall-libs: check-env
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
- $(RM_F) $(MK_LIBS_INST_W_VERS_CONF)
else
@echo "Removing $(MK_LIBS_INST_W_VERS_CONF)."
@- $(RM_F) $(MK_LIBS_INST_W_VERS_CONF)
endif
uninstall-lib-symlinks: check-env
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
- $(RM_F) $(MK_LIBS_INST)
else
@echo "Removing $(MK_LIBS_INST)."
@- $(RM_F) $(MK_LIBS_INST)
endif
uninstall-headers: check-env
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
- $(RM_RF) $(MK_INCL_DIR_INST)
else
@echo "Removing $(MK_INCL_DIR_INST)/."
@- $(RM_RF) $(MK_INCL_DIR_INST)
endif
$(UNINSTALL_LIBS): check-env
ifeq ($(BLIS_ENABLE_VERBOSE_MAKE_OUTPUT),yes)
- $(RM_F) $@
else
@echo "Removing $(@F) from $(@D)/."
@- $(RM_F) $@
endif
Reference in New Issue View Git Blame Copy Permalink