File: [local] / OpenXM_contrib / pari / config / Attic / Makefile.DLLs (download)
Revision 1.1.1.1 (vendor branch), Sun Jan 9 17:35:29 2000 UTC (24 years, 6 months ago) by maekawa
Branch: PARI_GP
CVS Tags: maekawa-ipv6, VERSION_2_0_17_BETA, RELEASE_20000124, RELEASE_1_2_3, RELEASE_1_2_2_KNOPPIX_b, RELEASE_1_2_2_KNOPPIX, RELEASE_1_2_2, RELEASE_1_2_1, RELEASE_1_1_3, RELEASE_1_1_2 Changes since 1.1: +0 -0
lines
Import PARI/GP 2.0.17 beta.
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# This makefile is freely available from the website of Cygnus Solutions
# at http://www.cygnus.com on the cygwin32 home page. The author is
# Fergus Henderson <fjh@cs.mu.oz.au> http://www.cs.mu.oz.au/~fjh
# Before using this file you should read and understand the documentation
# on the Cygnus website.
# This file comes with a suitable disclaimer; i.e.,
# This is provided AS IS, with absolutely NO WARRANTY EITHER EXPRESSED
# OR IMPLIED.
#-----------------------------------------------------------------------------#
# Makefile.DLLs, version 0.7.
# This Makefile contains rules for creating DLLs on Windows using gnu-win32.
#-----------------------------------------------------------------------------#
# The SYM_PREFIX is used as a prefix for the symbols in the files
# that this makefiles automatically generates.
#
# The default SYM_PREFIX for libfoo.dll is `libfoo'.
# But you can override this by setting `SYM_PREFIX-libfoo = blah'.
SYM_PREFIX = $(firstword $(SYM_PREFIX-$*) $*)
GUARD_MACRO = $(SYM_PREFIX)_GLOBALS_H
DEFINE_DLL_MACRO = $(SYM_PREFIX)_DEFINE_DLL
USE_DLL_MACRO = $(SYM_PREFIX)_USE_DLL
IMP_MACRO = $(SYM_PREFIX)_IMP
GLOBAL_MACRO = $(SYM_PREFIX)_GLOBAL
IMPURE_PTR = $(SYM_PREFIX)_impure_ptr
# This rule creates a `.def' file, which lists the symbols that are exported
# from the DLL. We use `nm' to get a list of all the exported text (`T')
# symbols and data symbols -- including uninitialized data (`B'),
# initialized data (`D'), read-only data (`R'), and common blocks (`C').
# We also export `_impure_ptr', suitably renamed, so that the
# main program can do the necessary initialization of the DLL's _impure_ptr.
# (Since there can be more than one DLL, we must rename _impure_ptr as
# $(SYM_PREFIX)_impure_ptr to prevent name collisions.)
%.def: %.a
echo EXPORTS > $@
echo $(IMPURE_PTR) = _impure_ptr >> $@
nm $< | sed -n '/^........ [BCDRT] _/s/[^_]*_//p' >> $@
# We need to use macros to access global data:
# the user of the DLL must refer to `bar' as `(*__imp_bar)'.
# This rule creates a pair of files `foo_dll.h' and `foo_globals.h'
# which contains macros for doing this.
#
# The DLL may also contain some references to _impure_ptr
# (e.g. stdin is defined as a macro which expands to _impure_ptr.stdin).
# We need to provide a definition for this (otherwise it will link in
# the definition in libccrt.o, which causes lots of problems,
# eventually leading to undefined symbol `WinMain').
# The DLL's entry function (below) will initialize the _impure_ptr variable
# in the DLL so that they point to the main program's reent_data struct.
%_dll.h:
echo "/* automatically generated by Makefile.DLLs */" > $@
echo "#ifndef $(GUARD_MACRO)" >> $@
echo "#define $(GUARD_MACRO)" >> $@
echo "" >> $@
echo "#if defined(__GNUC__) && defined(__CYGWIN32__)" >> $@
echo " #if defined($(USE_DLL_MACRO))" >> $@
echo " #define $(IMP_MACRO)(name) __imp_##name" >> $@
echo " #define $(GLOBAL_MACRO)(name) (*$(IMP_MACRO)(name))" >> $@
echo " #include \"$*_globals.h\"" >> $@
echo " #endif /* $(USE_DLL_MACRO) */" >> $@
echo "#endif /* __GNUC__ && __CYGWIN32__ */" >> $@
echo "" >> $@
echo "#endif /* $(GUARD_MACRO) */" >> $@
%_globals.h: %.a
echo "/* automatically generated by Makefile.DLLs */" > $@
for sym in $(IMPURE_PTR) \
`nm $< | grep '^........ [BCDR] _' | sed 's/[^_]*_//'`; \
do \
echo "#define $$sym $(GLOBAL_MACRO)($$sym)" >> $@; \
done
%_dll.c:
echo "/* automatically generated by Makefile.DLLs */" > $@
echo "void *_impure_ptr;" >> $@
# This rule creates the export object file (`foo.exp') which contains the
# jump table array; this export object file becomes part of the DLL.
# This rule also creates the import library (`foo_dll.a') which contains small
# stubs for all the functions exported by the DLL which jump to them via the
# jump table. Executables that will use the DLL must be linked against this
# stub library.
%.exp %_dll.a : %.def
dlltool $(DLLTOOLFLAGS) $(DLLTOOLFLAGS-$*) \
--def $< \
--dllname $*.dll \
--output-exp $*.exp \
--output-lib $*_dll.a
# The `sed' commands below are to convert DOS-style `C:\foo\bar'
# pathnames into Unix-style `//c/foo/bar' pathnames.
CYGWIN32_LIBS = $(shell echo \
-L`dirname \`gcc -print-file-name=libgcc.a | \
sed -e 's@^\\\\([A-Za-z]\\\\):@//\\\\1@g' -e 's@\\\\\\\\@/@g' \` ` \
-L`dirname \`gcc -print-file-name=libcygwin.a | \
sed -e 's@^\\\\([A-Za-z]\\\\):@//\\\\1@g' -e 's@\\\\\\\\@/@g' \` ` \
-L`dirname \`gcc -print-file-name=libkernel32.a | \
sed -e 's@^\\\\([A-Za-z]\\\\):@//\\\\1@g' -e 's@\\\\\\\\@/@g' \` ` \
-lgcc -lcygwin -lkernel32 -lgcc)
# Making relocatable DLLs doesn't seem to work.
# Not quite sure why. The --image-base values below
# where chosen at random, they seem to work on my machine.
# DYNRELOC=no is the default
# DLLDFLAGS-libgc += --image-base=0x2345000
# DLLDFLAGS-libmer += --image-base=0x1234000
# DLLDFLAGS-libmercury += --image-base=0x3456000
ifeq "$(strip $(DYNRELOC))" "yes"
# to create relocatable DLLs, we need to do two passes
# (warning: this is untested)
%.dll: %.exp %.a %_dll.o dll_init.o dll_fixup.o
$(DLLD) $(DLLDFLAGS) $(DLLDFLAGS-$*) --dll -o $*.base \
-e _dll_entry@12 \
$*.exp $*.a $*_dll.o \
dll_init.o dll_fixup.o \
$(LDLIBS) $(LDLIBS-$*) \
$(CYGWIN32_LIBS)
# untested
dlltool $(DLLTOOLFLAGS) $(DLLTOOLFLAGS-$*) \
--def $*.def \
--dllname $*.dll \
--base-file $*.base \
--output-exp $*.exp
$(DLLD) $(DLLDFLAGS) $(DLLDFLAGS-$*) --dll -o $*.base \
-e _dll_entry@12 \
$*.exp $*.a $*_dll.o \
dll_init.o dll_fixup.o \
$(LDLIBS) $(LDLIBS-$*) \
$(CYGWIN32_LIBS)
dlltool $(DLLTOOLFLAGS) $(DLLTOOLFLAGS-$*) \
--def $*.def \
--dllname $*.dll \
--base-file $*.base \
--output-exp $*.exp
# end untested stuff
$(DLLD) $(DLLDFLAGS) $(DLLDFLAGS-$*) --dll --base-file $*.base -o $@ \
-e _dll_entry@12 \
$*.exp $*.a $*_dll.o \
dll_init.o dll_fixup.o \
$(LDLIBS) $(LDLIBS-$*) \
$(CYGWIN32_LIBS)
rm -f $*.base
else
%.dll: %.exp %.a %_dll.o dll_fixup.o dll_init.o
$(DLLD) $(DLLDFLAGS) $(DLLDFLAGS-$*) --dll -o $@ \
-e _dll_entry@12 \
$*.exp $*.a $*_dll.o \
dll_init.o dll_fixup.o \
$(LDLIBS) $(LDLIBS-$*) \
$(CYGWIN32_LIBS)
endif
# This black magic piece of assembler needs to be linked in in order to
# properly terminate the list of imported DLLs.
dll_fixup.s:
echo '.section .idata$$3' > dll_fixup.s
echo '.long 0,0,0,0,0' >> dll_fixup.s
dll_fixup.o: dll_fixup.s
$(AS) $(ASFLAGS) -o dll_fixup.o dll_fixup.s
# Windows requires each DLL to have an initialization function
# that is called at certain points (thread/process attach/detach).
# This one just initializes `_impure_ptr'.
dll_init.c:
echo '#include <stdio.h>' > dll_init.c
echo 'extern struct _reent *_impure_ptr;' >> dll_init.c
echo 'extern struct _reent *__imp_reent_data;' >> dll_init.c
echo '__attribute__((stdcall))' >> dll_init.c
echo 'int dll_entry(int handle, int reason, void *ptr)' >> dll_init.c
echo '{ _impure_ptr=__imp_reent_data; return 1; }' >> dll_init.c
# The following rule is just there to convince gcc
# to keep otherwise unused intermediate targets around.
dont_throw_away: dll_fixup.o dll_init.o