# Setjmp_test may yield overly optimistic results when compiled
# without optimization.
-# These define arguments influence the collector configuration:
-# -DFIND_LEAK causes GC_find_leak to be initially set.
-# This causes the collector to assume that all inaccessible
-# objects should have been explicitly deallocated, and reports exceptions.
-# Finalization and the test program are not usable in this mode.
-# -DGC_SOLARIS_THREADS enables support for Solaris pthreads.
-# Must also define -D_REENTRANT.
-# -DGC_IRIX_THREADS enables support for Irix pthreads. See README.irix.
-# -DGC_HPUX_THREADS enables support for HP/UX 11 pthreads.
-# Also requires -D_REENTRANT or -D_POSIX_C_SOURCE=199506L. See README.hp.
-# -DGC_LINUX_THREADS enables support for Xavier Leroy's Linux threads.
-# see README.linux. -D_REENTRANT may also be required.
-# -DGC_OSF1_THREADS enables support for Tru64 pthreads.
-# -DGC_FREEBSD_THREADS enables support for FreeBSD pthreads.
-# Appeared to run into some underlying thread problems.
-# -DGC_DARWIN_THREADS enables support for Mac OS X pthreads.
-# -DGC_AIX_THREADS enables support for IBM AIX threads.
-# -DGC_DGUX386_THREADS enables support for DB/UX on I386 threads.
-# See README.DGUX386.
-# -DGC_WIN32_THREADS enables support for win32 threads. That makes sense
-# for this Makefile only under Cygwin.
-# -DGC_THREADS should set the appropriate one of the above macros.
-# It assumes pthreads for Solaris.
-# -DALL_INTERIOR_POINTERS allows all pointers to the interior
-# of objects to be recognized. (See gc_priv.h for consequences.)
-# Alternatively, GC_all_interior_pointers can be set at process
-# initialization time.
-# -DSMALL_CONFIG tries to tune the collector for small heap sizes,
-# usually causing it to use less space in such situations.
-# Incremental collection no longer works in this case.
-# -DLARGE_CONFIG tunes the collector for unusually large heaps.
-# Necessary for heaps larger than about 500 MB on most machines.
-# Recommended for heaps larger than about 64 MB.
-# -DDONT_ADD_BYTE_AT_END is meaningful only with -DALL_INTERIOR_POINTERS or
-# GC_all_interior_pointers = 1. Normally -DALL_INTERIOR_POINTERS
-# causes all objects to be padded so that pointers just past the end of
-# an object can be recognized. This can be expensive. (The padding
-# is normally more than one byte due to alignment constraints.)
-# -DDONT_ADD_BYTE_AT_END disables the padding.
-# -DNO_EXECUTE_PERMISSION may cause some or all of the heap to not
-# have execute permission, i.e. it may be impossible to execute
-# code from the heap. Currently this only affects the incremental
-# collector on UNIX machines. It may greatly improve its performance,
-# since this may avoid some expensive cache synchronization.
-# -DGC_NO_OPERATOR_NEW_ARRAY declares that the C++ compiler does not support
-# the new syntax "operator new[]" for allocating and deleting arrays.
-# See gc_cpp.h for details. No effect on the C part of the collector.
-# This is defined implicitly in a few environments. Must also be defined
-# by clients that use gc_cpp.h.
-# -DREDIRECT_MALLOC=X causes malloc to be defined as alias for X.
-# Unless the following macros are defined, realloc is also redirected
-# to GC_realloc, and free is redirected to GC_free.
-# Calloc and strdup are redefined in terms of the new malloc. X should
-# be either GC_malloc or GC_malloc_uncollectable, or
-# GC_debug_malloc_replacement. (The latter invokes GC_debug_malloc
-# with dummy source location information, but still results in
-# properly remembered call stacks on Linux/X86 and Solaris/SPARC.
-# It requires that the following two macros also be used.)
-# The former is occasionally useful for working around leaks in code
-# you don't want to (or can't) look at. It may not work for
-# existing code, but it often does. Neither works on all platforms,
-# since some ports use malloc or calloc to obtain system memory.
-# (Probably works for UNIX, and win32.) If you build with DBG_HDRS_ALL,
-# you should only use GC_debug_malloc_replacement as a malloc
-# replacement.
-# -DREDIRECT_REALLOC=X causes GC_realloc to be redirected to X.
-# The canonical use is -DREDIRECT_REALLOC=GC_debug_realloc_replacement,
-# together with -DREDIRECT_MALLOC=GC_debug_malloc_replacement to
-# generate leak reports with call stacks for both malloc and realloc.
-# This also requires the following:
-# -DREDIRECT_FREE=X causes free to be redirected to X. The
-# canonical use is -DREDIRECT_FREE=GC_debug_free.
-# -DIGNORE_FREE turns calls to free into a noop. Only useful with
-# -DREDIRECT_MALLOC.
-# -DNO_DEBUGGING removes GC_dump and the debugging routines it calls.
-# Reduces code size slightly at the expense of debuggability.
-# -DJAVA_FINALIZATION makes it somewhat safer to finalize objects out of
-# order by specifying a nonstandard finalization mark procedure (see
-# finalize.c). Objects reachable from finalizable objects will be marked
-# in a separate postpass, and hence their memory won't be reclaimed.
-# Not recommended unless you are implementing a language that specifies
-# these semantics. Since 5.0, determines only the initial value
-# of GC_java_finalization variable.
-# -DFINALIZE_ON_DEMAND causes finalizers to be run only in response
-# to explicit GC_invoke_finalizers() calls.
-# In 5.0 this became runtime adjustable, and this only determines the
-# initial value of GC_finalize_on_demand.
-# -DATOMIC_UNCOLLECTABLE includes code for GC_malloc_atomic_uncollectable.
-# This is useful if either the vendor malloc implementation is poor,
-# or if REDIRECT_MALLOC is used.
-# -DMARK_BIT_PER_GRANULE requests that a mark bit (or often byte)
-# be allocated for each allocation granule, as opposed to each object.
-# This often improves speed, possibly at some cost in space and/or
-# cache footprint. Normally it is best to let this decision be
-# made automatically depending on platform.
-# -DMARK_BIT_PER_OBJ requests that a mark bit be allocated for each
-# object instead of allocation granule. The opposiet of
-# MARK_BIT_PER_GRANULE.
-# -DHBLKSIZE=ddd, where ddd is a power of 2 between 512 and 16384, explicitly
-# sets the heap block size. Each heap block is devoted to a single size and
-# kind of object. For the incremental collector it makes sense to match
-# the most likely page size. Otherwise large values result in more
-# fragmentation, but generally better performance for large heaps.
-# -DUSE_MMAP use MMAP instead of sbrk to get new memory.
-# Works for Solaris and Irix.
-# -DUSE_MUNMAP causes memory to be returned to the OS under the right
-# circumstances. This currently disables VM-based incremental collection.
-# This is currently experimental, and works only under some Unix,
-# Linux and Windows versions.
-# -DMMAP_STACKS (for Solaris threads) Use mmap from /dev/zero rather than
-# GC_scratch_alloc() to get stack memory.
-# -DPRINT_BLACK_LIST Whenever a black list entry is added, i.e. whenever
-# the garbage collector detects a value that looks almost, but not quite,
-# like a pointer, print both the address containing the value, and the
-# value of the near-bogus-pointer. Can be used to identifiy regions of
-# memory that are likely to contribute misidentified pointers.
-# -DKEEP_BACK_PTRS Add code to save back pointers in debugging headers
-# for objects allocated with the debugging allocator. If all objects
-# through GC_MALLOC with GC_DEBUG defined, this allows the client
-# to determine how particular or randomly chosen objects are reachable
-# for debugging/profiling purposes. The gc_backptr.h interface is
-# implemented only if this is defined.
-# -DGC_ASSERTIONS Enable some internal GC assertion checking. Currently
-# this facility is only used in a few places. It is intended primarily
-# for debugging of the garbage collector itself, but could also
-# -DDBG_HDRS_ALL Make sure that all objects have debug headers. Increases
-# the reliability (from 99.9999% to 100% mod. bugs) of some of the debugging
-# code (especially KEEP_BACK_PTRS). Makes -DSHORT_DBG_HDRS possible.
-# Assumes that all client allocation is done through debugging
-# allocators.
-# -DSHORT_DBG_HDRS Assume that all objects have debug headers. Shorten
-# the headers to minimize object size, at the expense of checking for
-# writes past the end of an object. This is intended for environments
-# in which most client code is written in a "safe" language, such as
-# Scheme or Java. Assumes that all client allocation is done using
-# the GC_debug_ functions, or through the macros that expand to these,
-# or by redirecting malloc to GC_debug_malloc_replacement.
-# (Also eliminates the field for the requested object size.)
-# occasionally be useful for debugging of client code. Slows down the
-# collector somewhat, but not drastically.
-# -DSAVE_CALL_COUNT=<n> Set the number of call frames saved with objects
-# allocated through the debugging interface. Affects the amount of
-# information generated in leak reports. Only matters on platforms
-# on which we can quickly generate call stacks, currently Linux/(X86 & SPARC)
-# and Solaris/SPARC and platforms that provide execinfo.h.
-# Default is zero. On X86, client
-# code should NOT be compiled with -fomit-frame-pointer.
-# -DSAVE_CALL_NARGS=<n> Set the number of functions arguments to be
-# saved with each call frame. Default is zero. Ignored if we
-# don't know how to retrieve arguments on the platform.
-# -DCHECKSUMS reports on erroneously clear dirty bits, and unexpectedly
-# altered stubborn objects, at substantial performance cost.
-# Use only for debugging of the incremental collector.
-# -DGC_GCJ_SUPPORT includes support for gcj (and possibly other systems
-# that include a pointer to a type descriptor in each allocated object).
-# Building this way requires an ANSI C compiler.
-# -DUSE_I686_PREFETCH causes the collector to issue Pentium III style
-# prefetch instructions. No effect except on X86 Linux platforms.
-# Assumes a very recent gcc-compatible compiler and assembler.
-# (Gas prefetcht0 support was added around May 1999.)
-# Empirically the code appears to still run correctly on Pentium II
-# processors, though with no performance benefit. May not run on other
-# X86 processors? In some cases this improves performance by
-# 15% or so.
-# -DUSE_3DNOW_PREFETCH causes the collector to issue AMD 3DNow style
-# prefetch instructions. Same restrictions as USE_I686_PREFETCH.
-# Minimally tested. Didn't appear to be an obvious win on a K6-2/500.
-# -DUSE_PPC_PREFETCH causes the collector to issue PowerPC style
-# prefetch instructions. No effect except on PowerPC OS X platforms.
-# Performance impact untested.
-# -DGC_USE_LD_WRAP in combination with the old flags listed in README.linux
-# causes the collector some system and pthread calls in a more transparent
-# fashion than the usual macro-based approach. Requires GNU ld, and
-# currently probably works only with Linux.
-# -DGC_USE_DLOPEN_WRAP causes the collector to redefine malloc and intercepted
-# pthread routines with their real names, and causes it to use dlopen
-# and dlsym to refer to the original versions. This makes it possible to
-# build an LD_PRELOADable malloc replacement library.
-# -DTHREAD_LOCAL_ALLOC defines GC_malloc(), GC_malloc_atomic()
-# and GC_gcj_malloc() to use a per-thread set of free-lists.
-# These then allocate in a way that usually does not involve
-# acquisition of a global lock. Currently supported only on platforms
-# such as Linux that use pthread_support.c. Recommended for multiprocessors.
-# Requires explicit GC_INIT() call.
-# -DUSE_COMPILER_TLS causes thread local allocation to use compiler-supported
-# "__thread" thread-local variables. This is the default in HP/UX. It
-# may help performance on recent Linux installations. (It failed for
-# me on RedHat 8, but appears to work on RedHat 9.)
-# -DPARALLEL_MARK allows the marker to run in multiple threads. Recommended
-# for multiprocessors. Currently requires Linux on X86 or IA64, though
-# support for other Posix platforms should be fairly easy to add,
-# if the thread implementation is otherwise supported.
-# -DNO_GETENV prevents the collector from looking at environment variables.
-# These may otherwise alter its configuration, or turn off GC altogether.
-# I don't know of a reason to disable this, except possibly if the
-# resulting process runs as a privileged user?
-# -DUSE_GLOBAL_ALLOC. Win32 only. Use GlobalAlloc instead of
-# VirtualAlloc to allocate the heap. May be needed to work around
-# a Windows NT/2000 issue. Incompatible with USE_MUNMAP.
-# See README.win32 for details.
-# -DMAKE_BACK_GRAPH. Enable GC_PRINT_BACK_HEIGHT environment variable.
-# See README.environment for details. Experimental. Limited platform
-# support. Implies DBG_HDRS_ALL. All allocation should be done using
-# the debug interface.
-# -DSTUBBORN_ALLOC allows allocation of "hard to change" objects, and thus
-# makes incremental collection easier. Was enabled by default until 6.0.
-# Rarely used, to my knowledge.
-# -DHANDLE_FORK attempts to make GC_malloc() work in a child process fork()ed
-# from a multithreaded parent. Currently only supported by pthread_support.c.
-# (Similar code should work on Solaris or Irix, but it hasn't been tried.)
-# -DTEST_WITH_SYSTEM_MALLOC causes gctest to allocate (and leak) large chunks
-# of memory with the standard system malloc. This will cause the root
-# set and collected heap to grow significantly if malloced memory is
-# somehow getting traced by the collector. This has no impact on the
-# generated library; it only affects the test.
-# -DNO_INCREMENTAL cases the gctest program to not invoke the incremental
-# collector. This has no impact on the generated library, only on the
-# test program. (This is often useful for debugging failures unrelated
-# to incremental GC.)
-# -DPOINTER_MASK=0x... causes candidate pointers to be ANDed with the
-# given mask before being considered. If either this or the following
-# macro is defined, it will be assumed that all pointers stored in
-# the heap need to be processed this way. Stack and register pointers
-# will be considered both with and without processing.
-# These macros are normally needed only to support systems that use
-# high-order pointer tags. EXPERIMENTAL.
-# -DPOINTER_SHIFT=n causes the collector to left shift candidate pointers
-# by the indicated amount before trying to interpret them. Applied
-# after POINTER_MASK. EXPERIMENTAL. See also the preceding macro.
-# -DENABLE_TRACE enables the GC_TRACE=addr environment setting to do its
-# job. By default this is not supported in order to keep the marker as fast
-# as possible.
-# -DDARWIN_DONT_PARSE_STACK Causes the Darwin port to discover thread
-# stack bounds in the same way as other pthread ports, without trying to
-# walk the frames onthe stack. This is recommended only as a fallback
-# for applications that don't support proper stack unwinding.
-#
+# Look into Makefile.direct for the description of the "define arguments"
+# influencing the collector configuration.
CXXFLAGS= $(CFLAGS)
AR= ar
AS=gcc -c -x assembler-with-cpp $(ABI_FLAG)
# The above doesn't work with gas, which doesn't run cpp.
# Define AS as `gcc -c -x assembler-with-cpp' instead.
-# Under Irix 6, you will have to specify the ABI (-o32, -n32, or -64)
-# if you use something other than the default ABI on your machine.
# special defines for DJGPP
CXXLD=gxx $(ABI_FLAG)
CFLAGS= -gstabs+ -O2 -I$(srcdir)/include -DATOMIC_UNCOLLECTABLE -DALL_INTERIOR_POINTERS -DNO_EXECUTE_PERMISSION
-# Setjmp_test may yield overly optimistic results when compiled
-# without optimization.
-# -DFIND_LEAK causes GC_find_leak to be initially set.
-# This causes the collector to assume that all inaccessible
-# objects should have been explicitly deallocated, and reports exceptions.
-# Finalization and the test program are not usable in this mode.
-# -DALL_INTERIOR_POINTERS allows all pointers to the interior
-# of objects to be recognized. (See gc_priv.h for consequences.)
-# -DSMALL_CONFIG tries to tune the collector for small heap sizes,
-# usually causing it to use less space in such situations.
-# Incremental collection no longer works in this case.
-# -DLARGE_CONFIG tunes the collector for unusually large heaps.
-# Necessary for heaps larger than about 500 MB on most machines.
-# Recommended for heaps larger than about 64 MB.
-# -DDONT_ADD_BYTE_AT_END is meaningful only with
-# -DALL_INTERIOR_POINTERS. Normally -DALL_INTERIOR_POINTERS
-# causes all objects to be padded so that pointers just past the end of
-# an object can be recognized. This can be expensive. (The padding
-# is normally more than one byte due to alignment constraints.)
-# -DDONT_ADD_BYTE_AT_END disables the padding.
-# -DNO_SIGNALS does not disable signals during critical parts of
-# the GC process. This is no less correct than many malloc
-# implementations, and it sometimes has a significant performance
-# impact. However, it is dangerous for many not-quite-ANSI C
-# programs that call things like printf in asynchronous signal handlers.
-# This is on by default. Turning it off has not been extensively tested with
-# compilers that reorder stores. It should have been.
-# -DNO_EXECUTE_PERMISSION may cause some or all of the heap to not
-# have execute permission, i.e. it may be impossible to execute
-# code from the heap. Currently this only affects the incremental
-# collector on UNIX machines. It may greatly improve its performance,
-# since this may avoid some expensive cache synchronization.
-# -DGC_NO_OPERATOR_NEW_ARRAY declares that the C++ compiler does not support
-# the new syntax "operator new[]" for allocating and deleting arrays.
-# See gc_cpp.h for details. No effect on the C part of the collector.
-# This is defined implicitly in a few environments. Must also be defined
-# by clients that use gc_cpp.h.
-# -DREDIRECT_MALLOC=X causes malloc, realloc, and free to be defined
-# as aliases for X, GC_realloc, and GC_free, respectively.
-# Calloc is redefined in terms of the new malloc. X should
-# be either GC_malloc or GC_malloc_uncollectable.
-# The former is occasionally useful for working around leaks in code
-# you don't want to (or can't) look at. It may not work for
-# existing code, but it often does. Neither works on all platforms,
-# since some ports use malloc or calloc to obtain system memory.
-# (Probably works for UNIX, and win32.)
-# -DIGNORE_FREE turns calls to free into a noop. Only useful with
-# -DREDIRECT_MALLOC.
-# -DNO_DEBUGGING removes GC_dump and the debugging routines it calls.
-# Reduces code size slightly at the expense of debuggability.
-# -DJAVA_FINALIZATION makes it somewhat safer to finalize objects out of
-# order by specifying a nonstandard finalization mark procedure (see
-# finalize.c). Objects reachable from finalizable objects will be marked
-# in a separate postpass, and hence their memory won't be reclaimed.
-# Not recommended unless you are implementing a language that specifies
-# these semantics. Since 5.0, determines only the initial value
-# of GC_java_finalization variable.
-# -DFINALIZE_ON_DEMAND causes finalizers to be run only in response
-# to explicit GC_invoke_finalizers() calls.
-# In 5.0 this became runtime adjustable, and this only determines the
-# initial value of GC_finalize_on_demand.
-# -DATOMIC_UNCOLLECTABLE includes code for GC_malloc_atomic_uncollectable.
-# This is useful if either the vendor malloc implementation is poor,
-# or if REDIRECT_MALLOC is used.
-# -DHBLKSIZE=ddd, where ddd is a power of 2 between 512 and 16384, explicitly
-# sets the heap block size. Each heap block is devoted to a single size and
-# kind of object. For the incremental collector it makes sense to match
-# the most likely page size. Otherwise large values result in more
-# fragmentation, but generally better performance for large heaps.
-# -DPRINT_BLACK_LIST Whenever a black list entry is added, i.e. whenever
-# the garbage collector detects a value that looks almost, but not quite,
-# like a pointer, print both the address containing the value, and the
-# value of the near-bogus-pointer. Can be used to identifiy regions of
-# memory that are likely to contribute misidentified pointers.
-# -DKEEP_BACK_PTRS Add code to save back pointers in debugging headers
-# for objects allocated with the debugging allocator. If all objects
-# through GC_MALLOC with GC_DEBUG defined, this allows the client
-# to determine how particular or randomly chosen objects are reachable
-# for debugging/profiling purposes. The gc_backptr.h interface is
-# implemented only if this is defined.
-# -DGC_ASSERTIONS Enable some internal GC assertion checking. Currently
-# this facility is only used in a few places. It is intended primarily
-# for debugging of the garbage collector itself, but could also
-# -DDBG_HDRS_ALL Make sure that all objects have debug headers. Increases
-# the reliability (from 99.9999% to 100%) of some of the debugging
-# code (especially KEEP_BACK_PTRS). Makes -DSHORT_DBG_HDRS possible.
-# Assumes that all client allocation is done through debugging
-# allocators.
-# -DSHORT_DBG_HDRS Assume that all objects have debug headers. Shorten
-# the headers to minimize object size, at the expense of checking for
-# writes past the end of an object. This is intended for environments
-# in which most client code is written in a "safe" language, such as
-# Scheme or Java. Assumes that all client allocation is done using
-# the GC_debug_ functions (or through the macros that expand to these.
-# (Also eliminates the field for the requested object size.)
-# occasionally be useful for debugging of client code. Slows down the
-# collector somewhat, but not drastically.
-# -DCHECKSUMS reports on erroneously clear dirty bits, and unexpectedly
-# altered stubborn objects, at substantial performance cost.
-# Use only for debugging of the incremental collector.
-# -DGC_GCJ_SUPPORT includes support for gcj (and possibly other systems
-# that include a pointer to a type descriptor in each allocated object).
-# Building this way requires an ANSI C compiler.
-# -DUSE_I686_PREFETCH causes the collector to issue Pentium III style
-# prefetch instructions. No effect except on X86 Linux platforms.
-# Assumes a very recent gcc-compatible compiler and assembler.
-# (Gas prefetcht0 support was added around May 1999.)
-# Empirically the code appears to still run correctly on Pentium II
-# processors, though with no performance benefit. May not run on other
-# X86 processors? In some cases this improves performance by
-# 15% or so.
-# -DUSE_3DNOW_PREFETCH causes the collector to issue AMD 3DNow style
-# prefetch instructions. Same restrictions as USE_I686_PREFETCH.
-# UNTESTED!!
-# -DGC_USE_LD_WRAP in combination with the gld flags listed in README.linux
-# causes the collector some system and pthread calls in a more transparent
-# fashion than the usual macro-based approach. Requires GNU ld, and
-# currently probably works only with Linux.
-
+# Look into Makefile.direct for the description of the "define arguments"
+# influencing the collector configuration.
CXXFLAGS= $(CFLAGS) -DGC_OPERATOR_NEW_ARRAY
AR= ar
projects / platform / upstream / libgc.git / commitdiff