7016942: Revert a refactoring in TooltipManager to allow reflection hack
Reviewed-by: rupashka
#
# Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved.
# DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
#
# This code is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License version 2 only, as
# published by the Free Software Foundation.
#
# This code is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
# version 2 for more details (a copy is included in the LICENSE file that
# accompanied this code).
#
# You should have received a copy of the GNU General Public License version
# 2 along with this work; if not, write to the Free Software Foundation,
# Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
#
# Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
# or visit www.oracle.com if you need additional information or have any
# questions.
#
#
# This makefile creates a build tree and lights off a build.
# You can go back into the build tree and perform rebuilds or
# incremental builds as desired. Be sure to reestablish
# environment variable settings for LD_LIBRARY_PATH and JAVA_HOME.
# The make process now relies on java and javac. These can be
# specified either implicitly on the PATH, by setting the
# (JDK-inherited) ALT_BOOTDIR environment variable to full path to a
# JDK in which bin/java and bin/javac are present and working (e.g.,
# /usr/local/java/jdk1.3/solaris), or via the (JDK-inherited)
# default BOOTDIR path value. Note that one of ALT_BOOTDIR
# or BOOTDIR has to be set. We do *not* search javac, javah, rmic etc.
# from the PATH.
#
# One can set ALT_BOOTDIR or BOOTDIR to point to a jdk that runs on
# an architecture that differs from the target architecture, as long
# as the bootstrap jdk runs under the same flavor of OS as the target
# (i.e., if the target is linux, point to a jdk that runs on a linux
# box). In order to use such a bootstrap jdk, set the make variable
# REMOTE to the desired remote command mechanism, e.g.,
#
# make REMOTE="rsh -l me myotherlinuxbox"
# Along with VM, Serviceability Agent (SA) is built for SA/JDI binding.
# JDI binding on SA produces two binaries:
# 1. sa-jdi.jar - This is build before building libjvm[_g].so
# Please refer to ./makefiles/sa.make
# 2. libsa[_g].so - Native library for SA - This is built after
# libjsig[_g].so (signal interposition library)
# Please refer to ./makefiles/vm.make
# If $(GAMMADIR)/agent dir is not present, SA components are not built.
ifeq ($(GAMMADIR),)
include ../../make/defs.make
else
include $(GAMMADIR)/make/defs.make
endif
include $(GAMMADIR)/make/$(OSNAME)/makefiles/rules.make
ifndef CC_INTERP
ifndef FORCE_TIERED
FORCE_TIERED=1
endif
endif
ifdef LP64
ifeq ("$(filter $(LP64_ARCH),$(BUILDARCH))","")
_JUNK_ := $(shell echo >&2 \
$(OSNAME) $(ARCH) "*** ERROR: this platform does not support 64-bit compilers!")
@exit 1
endif
endif
# we need to set up LP64 correctly to satisfy sanity checks in adlc
ifneq ("$(filter $(LP64_ARCH),$(BUILDARCH))","")
MFLAGS += " LP64=1 "
endif
# pass USE_SUNCC further, through MFLAGS
ifdef USE_SUNCC
MFLAGS += " USE_SUNCC=1 "
endif
# The following renders pathnames in generated Makefiles valid on
# machines other than the machine containing the build tree.
#
# For example, let's say my build tree lives on /files12 on
# exact.east.sun.com. This logic will cause GAMMADIR to begin with
# /net/exact/files12/...
#
# We only do this on SunOS variants, for a couple of reasons:
# * It is extremely rare that source trees exist on other systems
# * It has been claimed that the Linux automounter is flakey, so
# changing GAMMADIR in a way that exercises the automounter could
# prove to be a source of unreliability in the build process.
# Obviously, this Makefile is only relevant on SunOS boxes to begin
# with, but the SunOS conditionalization will make it easier to
# combine Makefiles in the future (assuming we ever do that).
ifeq ($(OSNAME),solaris)
# prepend current directory to relative pathnames.
NEW_GAMMADIR := \
$(shell echo $(GAMMADIR) | \
sed -e "s=^\([^/].*\)=$(shell pwd)/\1=" \
)
unexport NEW_GAMMADIR
# If NEW_GAMMADIR doesn't already start with "/net/":
ifeq ($(strip $(filter /net/%,$(NEW_GAMMADIR))),)
# prepend /net/$(HOST)
# remove /net/$(HOST) if name already began with /home/
# remove /net/$(HOST) if name already began with /java/
# remove /net/$(HOST) if name already began with /lab/
NEW_GAMMADIR := \
$(shell echo $(NEW_GAMMADIR) | \
sed -e "s=^\(.*\)=/net/$(HOST)\1=" \
-e "s=^/net/$(HOST)/home/=/home/=" \
-e "s=^/net/$(HOST)/java/=/java/=" \
-e "s=^/net/$(HOST)/lab/=/lab/=" \
)
# Don't use the new value for GAMMADIR unless a file with the new
# name actually exists.
ifneq ($(wildcard $(NEW_GAMMADIR)),)
GAMMADIR := $(NEW_GAMMADIR)
endif
endif
endif
# BUILDARCH is set to "zero" for Zero builds. VARIANTARCH
# is used to give the build directories meaningful names.
VARIANTARCH = $(subst i386,i486,$(ZERO_LIBARCH))
# There is a (semi-) regular correspondence between make targets and actions:
#
# Target Tree Type Build Dir
#
# debug compiler2 <os>_<arch>_compiler2/debug
# fastdebug compiler2 <os>_<arch>_compiler2/fastdebug
# jvmg compiler2 <os>_<arch>_compiler2/jvmg
# optimized compiler2 <os>_<arch>_compiler2/optimized
# profiled compiler2 <os>_<arch>_compiler2/profiled
# product compiler2 <os>_<arch>_compiler2/product
#
# debug1 compiler1 <os>_<arch>_compiler1/debug
# fastdebug1 compiler1 <os>_<arch>_compiler1/fastdebug
# jvmg1 compiler1 <os>_<arch>_compiler1/jvmg
# optimized1 compiler1 <os>_<arch>_compiler1/optimized
# profiled1 compiler1 <os>_<arch>_compiler1/profiled
# product1 compiler1 <os>_<arch>_compiler1/product
#
# debugcore core <os>_<arch>_core/debug
# fastdebugcore core <os>_<arch>_core/fastdebug
# jvmgcore core <os>_<arch>_core/jvmg
# optimizedcore core <os>_<arch>_core/optimized
# profiledcore core <os>_<arch>_core/profiled
# productcore core <os>_<arch>_core/product
#
# debugzero zero <os>_<arch>_zero/debug
# fastdebugzero zero <os>_<arch>_zero/fastdebug
# jvmgzero zero <os>_<arch>_zero/jvmg
# optimizedzero zero <os>_<arch>_zero/optimized
# profiledzero zero <os>_<arch>_zero/profiled
# productzero zero <os>_<arch>_zero/product
#
# debugshark shark <os>_<arch>_shark/debug
# fastdebugshark shark <os>_<arch>_shark/fastdebug
# jvmgshark shark <os>_<arch>_shark/jvmg
# optimizedshark shark <os>_<arch>_shark/optimized
# profiledshark shark <os>_<arch>_shark/profiled
# productshark shark <os>_<arch>_shark/product
#
# What you get with each target:
#
# debug* - "thin" libjvm_g - debug info linked into the gamma_g launcher
# fastdebug* - optimized compile, but with asserts enabled
# jvmg* - "fat" libjvm_g - debug info linked into libjvm_g.so
# optimized* - optimized compile, no asserts
# profiled* - gprof
# product* - the shippable thing: optimized compile, no asserts, -DPRODUCT
# This target list needs to be coordinated with the usage message
# in the build.sh script:
TARGETS = debug jvmg fastdebug optimized profiled product
ifeq ($(ZERO_BUILD), true)
SUBDIR_DOCS = $(OSNAME)_$(VARIANTARCH)_docs
else
SUBDIR_DOCS = $(OSNAME)_$(BUILDARCH)_docs
endif
SUBDIRS_C1 = $(addprefix $(OSNAME)_$(BUILDARCH)_compiler1/,$(TARGETS))
SUBDIRS_C2 = $(addprefix $(OSNAME)_$(BUILDARCH)_compiler2/,$(TARGETS))
SUBDIRS_TIERED = $(addprefix $(OSNAME)_$(BUILDARCH)_tiered/,$(TARGETS))
SUBDIRS_CORE = $(addprefix $(OSNAME)_$(BUILDARCH)_core/,$(TARGETS))
SUBDIRS_ZERO = $(addprefix $(OSNAME)_$(VARIANTARCH)_zero/,$(TARGETS))
SUBDIRS_SHARK = $(addprefix $(OSNAME)_$(VARIANTARCH)_shark/,$(TARGETS))
TARGETS_C2 = $(TARGETS)
TARGETS_C1 = $(addsuffix 1,$(TARGETS))
TARGETS_TIERED = $(addsuffix tiered,$(TARGETS))
TARGETS_CORE = $(addsuffix core,$(TARGETS))
TARGETS_ZERO = $(addsuffix zero,$(TARGETS))
TARGETS_SHARK = $(addsuffix shark,$(TARGETS))
BUILDTREE_MAKE = $(GAMMADIR)/make/$(OSNAME)/makefiles/buildtree.make
BUILDTREE_VARS = GAMMADIR=$(GAMMADIR) OS_FAMILY=$(OSNAME) ARCH=$(SRCARCH) BUILDARCH=$(BUILDARCH) LIBARCH=$(LIBARCH)
BUILDTREE_VARS += HOTSPOT_RELEASE_VERSION=$(HOTSPOT_RELEASE_VERSION) HOTSPOT_BUILD_VERSION=$(HOTSPOT_BUILD_VERSION) JRE_RELEASE_VERSION=$(JRE_RELEASE_VERSION)
BUILDTREE = $(MAKE) -f $(BUILDTREE_MAKE) $(BUILDTREE_VARS)
#-------------------------------------------------------------------------------
# Could make everything by default, but that would take a while.
all:
@echo "Try '$(MAKE) <target> ...' where <target> is one or more of"
@echo " $(TARGETS_C2)"
@echo " $(TARGETS_C1)"
@echo " $(TARGETS_CORE)"
@echo " $(TARGETS_ZERO)"
@echo " $(TARGETS_SHARK)"
checks: check_os_version check_j2se_version
# We do not want people accidentally building on old systems (e.g. Linux 2.2.x,
# Solaris 2.5.1, 2.6).
# Disable this check by setting DISABLE_HOTSPOT_OS_VERSION_CHECK=ok.
SUPPORTED_OS_VERSION = 2.4% 2.5% 2.6% 2.7%
OS_VERSION := $(shell uname -r)
EMPTY_IF_NOT_SUPPORTED = $(filter $(SUPPORTED_OS_VERSION),$(OS_VERSION))
check_os_version:
ifeq ($(DISABLE_HOTSPOT_OS_VERSION_CHECK)$(EMPTY_IF_NOT_SUPPORTED),)
$(QUIETLY) >&2 echo "*** This OS is not supported:" `uname -a`; exit 1;
endif
# jvmti.make requires XSLT (J2SE 1.4.x or newer):
XSLT_CHECK = $(REMOTE) $(RUN.JAVAP) javax.xml.transform.TransformerFactory
# If not found then fail fast.
check_j2se_version:
$(QUIETLY) $(XSLT_CHECK) > /dev/null 2>&1; \
if [ $$? -ne 0 ]; then \
$(REMOTE) $(RUN.JAVA) -version; \
echo "*** An XSLT processor (J2SE 1.4.x or newer) is required" \
"to bootstrap this build" 1>&2; \
exit 1; \
fi
$(SUBDIRS_TIERED): $(BUILDTREE_MAKE)
$(QUIETLY) $(MAKE) -f $(GAMMADIR)/make/$(OSNAME)/Makefile checks
$(BUILDTREE) VARIANT=tiered
$(SUBDIRS_C2): $(BUILDTREE_MAKE)
ifeq ($(FORCE_TIERED),1)
$(QUIETLY) $(MAKE) -f $(GAMMADIR)/make/$(OSNAME)/Makefile checks
$(BUILDTREE) VARIANT=tiered FORCE_TIERED=1
else
$(QUIETLY) $(MAKE) -f $(GAMMADIR)/make/$(OSNAME)/Makefile checks
$(BUILDTREE) VARIANT=compiler2
endif
$(SUBDIRS_C1): $(BUILDTREE_MAKE)
$(QUIETLY) $(MAKE) -f $(GAMMADIR)/make/$(OSNAME)/Makefile checks
$(BUILDTREE) VARIANT=compiler1
$(SUBDIRS_CORE): $(BUILDTREE_MAKE)
$(QUIETLY) $(MAKE) -f $(GAMMADIR)/make/$(OSNAME)/Makefile checks
$(BUILDTREE) VARIANT=core
$(SUBDIRS_ZERO): $(BUILDTREE_MAKE) platform_zero
$(QUIETLY) $(MAKE) -f $(GAMMADIR)/make/$(OSNAME)/Makefile checks
$(BUILDTREE) VARIANT=zero VARIANTARCH=$(VARIANTARCH)
$(SUBDIRS_SHARK): $(BUILDTREE_MAKE) platform_zero
$(QUIETLY) $(MAKE) -f $(GAMMADIR)/make/$(OSNAME)/Makefile checks
$(BUILDTREE) VARIANT=shark VARIANTARCH=$(VARIANTARCH)
platform_zero: $(GAMMADIR)/make/$(OSNAME)/platform_zero.in
$(SED) 's/@ZERO_ARCHDEF@/$(ZERO_ARCHDEF)/g;s/@ZERO_LIBARCH@/$(ZERO_LIBARCH)/g;' < $< > $@
# Define INSTALL=y at command line to automatically copy JVM into JAVA_HOME
$(TARGETS_C2): $(SUBDIRS_C2)
cd $(OSNAME)_$(BUILDARCH)_compiler2/$@ && $(MAKE) $(MFLAGS)
cd $(OSNAME)_$(BUILDARCH)_compiler2/$@ && ./test_gamma
ifdef INSTALL
cd $(OSNAME)_$(BUILDARCH)_compiler2/$@ && $(MAKE) $(MFLAGS) install
endif
$(TARGETS_TIERED): $(SUBDIRS_TIERED)
cd $(OSNAME)_$(BUILDARCH)_tiered/$(patsubst %tiered,%,$@) && $(MAKE) $(MFLAGS)
cd $(OSNAME)_$(BUILDARCH)_tiered/$(patsubst %tiered,%,$@) && ./test_gamma
ifdef INSTALL
cd $(OSNAME)_$(BUILDARCH)_tiered/$(patsubst %tiered,%,$@) && $(MAKE) $(MFLAGS) install
endif
$(TARGETS_C1): $(SUBDIRS_C1)
cd $(OSNAME)_$(BUILDARCH)_compiler1/$(patsubst %1,%,$@) && $(MAKE) $(MFLAGS)
cd $(OSNAME)_$(BUILDARCH)_compiler1/$(patsubst %1,%,$@) && ./test_gamma
ifdef INSTALL
cd $(OSNAME)_$(BUILDARCH)_compiler1/$(patsubst %1,%,$@) && $(MAKE) $(MFLAGS) install
endif
$(TARGETS_CORE): $(SUBDIRS_CORE)
cd $(OSNAME)_$(BUILDARCH)_core/$(patsubst %core,%,$@) && $(MAKE) $(MFLAGS)
cd $(OSNAME)_$(BUILDARCH)_core/$(patsubst %core,%,$@) && ./test_gamma
ifdef INSTALL
cd $(OSNAME)_$(BUILDARCH)_core/$(patsubst %core,%,$@) && $(MAKE) $(MFLAGS) install
endif
$(TARGETS_ZERO): $(SUBDIRS_ZERO)
cd $(OSNAME)_$(VARIANTARCH)_zero/$(patsubst %zero,%,$@) && $(MAKE) $(MFLAGS)
cd $(OSNAME)_$(VARIANTARCH)_zero/$(patsubst %zero,%,$@) && ./test_gamma
ifdef INSTALL
cd $(OSNAME)_$(VARIANTARCH)_zero/$(patsubst %zero,%,$@) && $(MAKE) $(MFLAGS) install
endif
$(TARGETS_SHARK): $(SUBDIRS_SHARK)
cd $(OSNAME)_$(VARIANTARCH)_shark/$(patsubst %shark,%,$@) && $(MAKE) $(MFLAGS)
cd $(OSNAME)_$(VARIANTARCH)_shark/$(patsubst %shark,%,$@) && ./test_gamma
ifdef INSTALL
cd $(OSNAME)_$(VARIANTARCH)_shark/$(patsubst %shark,%,$@) && $(MAKE) $(MFLAGS) install
endif
# Just build the tree, and nothing else:
tree: $(SUBDIRS_C2)
tree1: $(SUBDIRS_C1)
treecore: $(SUBDIRS_CORE)
treezero: $(SUBDIRS_ZERO)
treeshark: $(SUBDIRS_SHARK)
# Doc target. This is the same for all build options.
# Hence create a docs directory beside ...$(ARCH)_[...]
docs: checks
$(QUIETLY) mkdir -p $(SUBDIR_DOCS)
$(MAKE) -f $(GAMMADIR)/make/$(OSNAME)/makefiles/jvmti.make $(MFLAGS) $(BUILDTREE_VARS) JvmtiOutDir=$(SUBDIR_DOCS) jvmtidocs
# Synonyms for win32-like targets.
compiler2: jvmg product
compiler1: jvmg1 product1
core: jvmgcore productcore
zero: jvmgzero productzero
shark: jvmgshark productshark
clean_docs:
rm -rf $(SUBDIR_DOCS)
clean_compiler1 clean_compiler2 clean_core clean_zero clean_shark:
rm -rf $(OSNAME)_$(BUILDARCH)_$(subst clean_,,$@)
clean: clean_compiler2 clean_compiler1 clean_core clean_zero clean_shark clean_docs
include $(GAMMADIR)/make/$(OSNAME)/makefiles/cscope.make
#-------------------------------------------------------------------------------
.PHONY: $(TARGETS_C2) $(TARGETS_C1) $(TARGETS_CORE) $(TARGETS_ZERO) $(TARGETS_SHARK)
.PHONY: tree tree1 treecore treezero treeshark
.PHONY: all compiler1 compiler2 core zero shark
.PHONY: clean clean_compiler1 clean_compiler2 clean_core clean_zero clean_shark docs clean_docs
.PHONY: checks check_os_version check_j2se_version