# This is a make file inclusion, to be included in all the Netpbm make # files. # This file is meant to contain variable settings that customize the # build for a particular target system configuration. # The distribution contains the file config.mk.in. You edit # config.mk.in in ways relevant to your particular environment # to create config.mk. The "configure" program will do this # for you in simple cases. # Some of the variables that the including make file must set for this # file to work: # # SRCDIR: The directory at the top of the Netpbm source tree. Note that # this is typically a relative directory, and it must be relative to the # make file that includes this file. DEFAULT_TARGET = nonmerge #DEFAULT_TARGET = merge # Fiasco has some special requirements that make it fail to compile on # some systems, and since it isn't very important, just set this to "N" # and skip it on those systems unless you want to debug it and fix it. # OpenBSD: #BUILD_FIASCO = N BUILD_FIASCO = Y # The following are commands for the build process to use. These values # do not get built into anything. # The C compiler (including macro preprocessor) #CC = gcc # Note that 'cc' is usually an alias for whatever is the main compiler # on a system, e.g. the GNU Compiler on Linux. CC = cc # The linker. LD = $(CC) #LD = ld #Tru64: #LD = cc #LD = gcc #If the linker identified above is a compiler that invokes a linker #(as in 'cc foo.o -o foo'), set LINKERISCOMPILER. The main difference is #that we expect a compiler to take linker options in the '-Wl,-opt1,val1' #syntax whereas the actual linker would take '-opt1 val1'. LINKERISCOMPILER=Y #If $(LD) is 'ld': #LINKERISCOMPILER=N #LINKER_CAN_DO_EXPLICIT_LIBRARY means the linker specified above can #take a library as just another link object argument, as in 'ld #pnmtojpeg.o /usr/local/lib/libjpeg.so ...' as opposed to requiring a #-l option as in 'ld pnmtojpeg.o -L/usr/local/lib -l jpeg'. #This variable controls how 'libopt' gets built. Note that with some #linkers, you can specify a shared library explicitly, but then it has #to live in that exact place at run time. That's not good enough for us. LINKER_CAN_DO_EXPLICIT_LIBRARY=N #GNU: #LINKER_CAN_DO_EXPLICIT_LIBRARY=Y # This is the name of the header file that declares the types # uint32_t, etc. This name is used as #include $(INTTYPES_H) . # Set to null if the types come automatically without including anything. # We have a report (2005.09.17) that on IRIX 5.3 with the native IDO # cc, inttypes.h and sys/types.h conflict (and Netpbm programs include # sys/types for other things), so for that environment, # won't work, but "inttypes_netpbm.h" might. INTTYPES_H = # Linux libc5: #INTTYPES_H = # Solaris: # Solaris has , but it doesn't define int_fast2_t, etc. #INTTYPES_H = "inttypes_netpbm.h" # Others: #INTTYPES_H = #INTTYPES_H = # The automatically generated Netpbm version: #INTTYPES_H = "inttypes_netpbm.h" # HAVE_INT64 tells whether, assuming you include the header indicated by # INTTYPES_H, you have the int64_t type and related stuff. (If you don't # the build will omit certain code that does 64 bit computations). HAVE_INT64 = Y #HAVE_INT64 = N # WANT_SSE tells whether the build should use SSE instructions, via the the # standard SSE intrinsics (operators such as '_mm_movemask_epi8'). SSE # instructions are faster than traditional instructions, but aren't available # on all CPUs. Also, the standard intrinsics are not available in all # compilers. Even if you say N here, Netpbm may still be built with some # SSE exploitation (e.g. SSE floating point) because the compiler will # do it automatically. You can add a -nomsse or -nomsse2 option to # CFLAGS or CFLAGS_PERSONAL to stop that. WANT_SSE = N #WANT_SSE = Y # CC and LD are for building the Netpbm programs, which are not necessarily # intended to run on the same system on which Make is running. But when we # build a build tool such as Libopt, it is meant to run only on the same # system on which the Make is running. The variables below define programs # to use to compile and link build tools. CC_FOR_BUILD = $(CC) LD_FOR_BUILD = $(LD) CFLAGS_FOR_BUILD = $(CFLAGS_CONFIG) LDFLAGS_FOR_BUILD = $(LDFLAGS) # WINDRES is the program that creates a linkable object file from # a Windows Icon (.ico) file. WINDRES = windres # MAKE is set automatically by Make to what was used to invoke Make. INSTALL = $(SRCDIR)/buildtools/install.sh #Solaris: #INSTALL = /usr/ucb/install #Tru64: #INSTALL = installbsd #OSF1: #INSTALL = $(SRCDIR)/buildtools/installosf #Red Hat Linux: #INSTALL = install # STRIPFLAG is the option you pass to the above install program to make it # strip unnecessary information out of binaries. STRIPFLAG = -s # If you don't want to strip the binaries, just leave it null: #STRIPFLAG = SYMLINK = ln -s # At least some Windows environments don't have any concept of symbolic # links, but direct copies are usually a passable alternative. #SYMLINK = cp #MANPAGE_FORMAT is "nroff" or "cat". It determines in what format the #pointer man pages are installed (ready to nroff, or ready to cat). #A pointer man pages is just a single-paragraph pages that tells you there is #no man page for the program, to look at the HTML documentation instead. MANPAGE_FORMAT = nroff #MANPAGE_FORMAT = cat AR = ar RANLIB = ranlib # IRIX, SCO don't have Ranlib: #RANLIB = true # LEX is the beginning of a shell command that runs a Lex-like # pattern matcher generator. Null string means there isn't any such # command. That means the build will skip parts that need one. LEX = flex # Solaris: # LEX = flex -e # Windows Mingw: # LEX = # # LEX = lex # PKG_CONFIG is the beginning of a shell command that tells things about how # some package (e.g. the PNG library) is installed on the build system. For # example, it can tell what link options you need to link the PNG library to a # program. PKG_CONFIG = pkg-config # C compiler options # gcc: # -ansi and -Werror should work too, but are not included # by default because there's no point in daring the build to fail. # -pedantic isn't a problem because it causes at worst a warning. #CFLAGS = -O3 -ffast-math -pedantic -fno-common \ # -Wall -Wno-uninitialized -Wmissing-declarations -Wimplicit \ # -Wwrite-strings -Wmissing-prototypes -Wundef -Wno-unknown-pragmas # The merged programs have a main_XXX subroutine instead of main(), # which would cause a warning with -Wmissing-declarations or # -Wmissing-prototypes. #CFLAGS_MERGE = -Wno-missing-declarations -Wno-missing-prototypes # A user of DEC Tru64 4.0F in May 2000 needed -DLONG_32 for ppmtompeg, # but word size-sensitive code was removed from parallel.c in September 2004. # A user of Tru64 5.1A in July 2003 needed NOT to have -DLONG_32. In # theory, you need this if on your system, long is 32 bits and int is not. # But it may be completely irrelevant today. #Tru64: #CFLAGS = -O2 -std1 -DLONG_32 #CFLAGS = -O2 -std1 #AIX: #CFLAGS= -O3 #HP-UX: #CFLAGS= -O3 -fPIC #IRIX: #CFLAGS= -n32 -O3 #Amiga with GNU compiler: #CFLAGS= -m68020-60 -ffast-math -mstackextend # You can add -noixemul for Amiga and successfully compile most of the # programs. (Of the remaining ones, if you can supply your own strtod() # function, most of them will build with -noixemul). So try building # with 'make --keep-going CADD=-noixemul' first, then just 'make' to build # everything that failed for lack of the ixemul library in the first step. # That way, the parts that don't required the ixemul library won't indicate # a dependency on it. #OpenBSD: #CFLAGS = -I/usr/local/include # EXE is a suffix that the linker puts on any executable it generates. # In cygwin, this is .exe and most programs deal with its existence without # us having to know about it. Some don't though, so set this: EXE = #Cygwin, DJGPP/Windows: #EXE = .exe # linker options. # LDFLAGS is often set as an environment variable; A setting here overrides # it. So either make sure you want to override it, or do a "LDFLAGS +=" here. # LDFLAGS is usually not the right place for a -L option, because we put # LDFLAGS _before_ our own -L options, so it would cancel out our # specific selection of libraries. For example, if you say # LDFLAGS=/usr/local/lib and an old copy of the libnetpbm is in # /usr/local/lib, then you'd be linking against that old copy instead of # the copy you just built, which is located by a -L option later on the # link command. LIBS is the right variable for adding -L options. LIBS # goes after any of our make files' own -L options. # Eunice users may want to use -noshare so that the executables can # run standalone: #LDFLAGS += -noshare #Tru64: # Russ Allberry says on 2001.06.09 that -oldstyle_liblookup may be necessary # to keep from finding an ancient system libjpeg.so that isn't compatible with # NetPBM. Michael Long found that /usr/local/lib is not in the default # search path, or not soon enough, and he was getting an old libjpeg that # caused all the jpeg symbol references to be unresolved. He had installed # a new libjpeg in /usr/local/lib. #LDFLAGS += -call_shared -oldstyle_liblookup -L/usr/local/lib #AIX: #LDFLAGS += -L /usr/pubsw/lib #HP-UX: #LDFLAGS += -Wl,+b,/usr/pubsw/lib #IRIX: #LDFLAGS += -n32 # Linker options for created Netpbm shared libraries. # Here, $(SONAME) resolves to the soname for the shared library being created. # The following are gcc options. This works on GNU libc systems. LDSHLIB = -shared -Wl,-soname,$(SONAME) # You need -nostart instead of -shared on BeOS. Though the BeOS compiler is # ostensibly gcc, it has the -nostart option, which is not mentioned in gcc # documentation and doesn't exist in at least one non-BeOS installation. # BeOS doesn't have sonames built in. #LDSHLIB = -nostart #LDSHLIB = -G # Solaris, SunOS with GNU Ld, SCO: # These systems have no soname option. #LDSHLIB = -shared # Solaris with Sun Ld: #LDSHLIB = -Wl,-Bdynamic,-G,-h,$(SONAME) #Tru64: #LDSHLIB = -shared -expect_unresolved "*" #IRIX: #LDSHLIB = -shared -n32 #AIX GNU compiler/linker: #LDSHLIB = -shared #AIX Visual Age C: #LDSHLIB = -qmkshrobj #Mac OSX: # According to experiments done by Peter A Crowley in May 2007, if # libnetpbm goes in a standard place such as /usr/local/lib, # programs need not be built with libnetpbm's location included. # But if it goes elsewhere, the link-editor must include the # location in the executable. It finds the runtime location by # looking inside the library. The information in the library # comes from the install_name option with which the library was # built. It's an alternative to the -rpath option on other systems. #LDSHLIB=-dynamiclib #LDSHLIB=-dynamiclib -install_name $(NETPBMLIB_RUNTIME_PATH)/libnetpbm.$(MAJ).dylib # LDRELOC is the command to combine two .o files (relocatable object files) # into a single .o file that can later be linked into something else. NONE # means no such command is available. LDRELOC = NONE # GNU Ld: # Older GNU Ld misspells the option as --relocateable. Newer GNU Ld # correctly spells it --relocatable. The abbreviation --reloc works on # both. #LDRELOC = ld --reloc #LDRELOC = ld -r # On older systems, you have to make shared libraries out of position # independent code, so you need -fpic or fPIC here. (The rule is: if # -fpic works, use it. If it bombs, go to fPIC). On newer systems, # it isn't necessary, but can save real memory at the expense of # execution speed. Without position independent code, the library # loader may have to patch addresses into the executable text. On an # older system, this would cause a program crash because the loader # would be writing into read-only shared memory. But on newer # systems, the system silently creates a private mapping of the page # or segment being modified (the "copy on write" phenomenon). So it # needs its own private real page frame. In one experiment, A second # copy of Pbmtext used 16K less real memory when built with -fpic than # when built without. 2001.06.02. # We have seen -fPIC required on IA64 and AMD64 machines (GNU # compiler/linker). Build-time linking fails without it. I don't # know why -- history seems to be repeating itself. 2005.02.23. CFLAGS_SHLIB = # Gcc: #CFLAGS_SHLIB = -fpic #CFLAGS_SHLIB = -fPIC # Sun compiler: #CFLAGS_SHLIB = -Kpic #CFLAGS_SHLIB = -KPIC # SHLIB_CLIB is the link option to include the C library in a shared library, # normally "-lc". On typical systems, this serves no purpose. On some, # though, it causes information about which C library to use to be recorded # in the shared library and thus choose the correct library among several or # avoid using an incompatible one. But on some systems, the link fails. # On 2002.09.30, "John H. DuBois III" reports that on # SCO OpenServer, he gets the following error message with -lc: # # -lc; relocations referenced ; from file(s) /usr/ccs/lib/libc.so(random.o); # fatal error: relocations remain against allocatable but non-writable # section: ; .text SHLIB_CLIB = -lc # SCO: #SHLIB_CLIB = # On some systems you have to build into an executable the list of # directories where its dynamically linked libraries can be found at # run time. This is typically done with a -R or -rpath linker # option. Even on systems that don't require it, you might prefer to do # that rather than set up environment variables or configuration files # to tell the system where the libraries are. A "Y" here means to put # the directory information in the executable at link time. NEED_RUNTIME_PATH = N # Solaris, SunOS, NetBSD, AIX: #NEED_RUNTIME_PATH = Y # RPATHOPTNAME is the option you use on the link command to specify # a runtime search path for a shared library. It is meaningless unless # NEED_RUNTIME_PATH is Y. RPATHOPTNAME = -rpath # The following variables tell where your various libraries on which # Netpbm depends live. The LIBxxx variable is a full file # specification of the link library (not necessarily the library used # at run time). e.g. "/usr/local/lib/graphics/libjpeg.so". It usually # doesn't matter if the library prefix and suffix are right -- you can # use "lib" and ".so" or ".a" regardless of what your system actually # uses because these just turn into "-L" and "-l" linker options # anyway. ".a" implies a static library for some purposes, though. # If you don't have the library in question, use a value of NONE for # LIBxxx and the build will simply skip the programs that require that # library. If the library is in your linker's (or the Netpbm build's) # default search path, leave off the directory part, e.g. "libjpeg.so". # The xxxHDR_DIR variable is the directory in which the interface # headers for the library live (e.g. /usr/include). If they are in your # compiler's default search path, set this variable to null. # This is where the Netpbm shared libraries will reside when Netpbm is # fully installed. In some configurations, the Netpbm builder builds # this information into the Netpbm executables. This does NOT affect # where the Netpbm installer installs the libraries. A null value # means the libraries are in a default search path used by the runtime # library loader. NETPBMLIB_RUNTIME_PATH = #NETPBMLIB_RUNTIME_PATH = /usr/lib/netpbm # The TIFF library. See above. If you want to build the tiff # converters, you must have the tiff library already installed. TIFFLIB = NONE TIFFHDR_DIR = #TIFFLIB = libtiff.so #TIFFHDR_DIR = /usr/include/libtiff #NetBSD: #TIFFLIB = $(LOCALBASE)/lib/libtiff.so #TIFFHDR_DIR = $(LOCALBASE)/include # OSF, Tru64: #TIFFLIB = /usr/local1/DEC/lib/libtiff.so #TIFFHDR_DIR = /usr/local1/DEC/include # Some TIFF libraries do Jpeg and/or Z (flate) compression and thus any # program linked with the TIFF library needs a Jpeg and/or Z library. Some # TIFF libraries have such library statically linked in, but others need it to # be linked with the program at link-edit time or dynamically at program load # time. Make this 'N' if your TIFF library doesn't need such linking. As of # 2005.01, the most usual build of the TIFF library appears to require both. TIFFLIB_NEEDS_JPEG = Y TIFFLIB_NEEDS_Z = Y # The JPEG library. See above. If you want to build the jpeg # converters you must have the jpeg library already installed. # Tiff files can use JPEG compression, so the Tiff library can reference # the JPEG library. If your Tiff library references a dynamic JPEG # library, you must specify at least JPEGLIB here, or the Tiff # converters will not build. Note that your Tiff library may have the # JPEG stuff statically linked in, in which case you won't need # JPEGLIB in order to build the Tiff converters. JPEGLIB = NONE JPEGHDR_DIR = #JPEGLIB = libjpeg.so #JPEGHDR_DIR = /usr/include/jpeg # Netbsd: #JPEGLIB = ${LOCALBASE}/lib/libjpeg.so #JPEGHDR_DIR = ${LOCALBASE}/include # OSF, Tru64: #JPEGLIB = /usr/local1/DEC/libjpeg.so #JPEGHDR_DIR = /usr/local1/DEC/include # Typical: #JPEGLIB = /usr/local/lib/libjpeg.so #JPEGHDR_DIR = /usr/local/include # Don't build JPEG stuff: #JPEGLIB = NONE # The PNG library. See above. If you want to build the PNG # converters you must have the PNG library already installed. # The PNG library, by convention starting around April 2002, gets installed # with names that include a version number, such as libpng10.a and header # files in /usr/include/libpng10. But there is conventionally an unnumbered # alias (e.g. libpng.a, /usr/include/libpng) for the preferred version. # # Recent versions of the library (since some time in the 2002-2006 period) # have an associated 'libpng-config' that tells how to link it. The make # files will use that program if it exists (must be in the PATH). In that # case, PNGLIB and PNGHDR_DIR are irrelevant, but PNGVER is still meaningful, # because the make file runs 'libpng$(PNGVER)-config'. # # Even more recent versions have the more modern Pkgconfig database entry # to tell how to link it. The make files will try to use that first. # # The normal way to choose the libpng the Netpbm build uses from among multiple # versions on your system is not to mess with the variables below, but rather # to mess with PKG_CONFIG_PATH or PATH environment variable so that the version # you want to use appears first in the search path. PNGLIB = NONE PNGHDR_DIR = PNGVER = #PNGLIB = libpng$(PNGVER).so #PNGHDR_DIR = /usr/include/libpng$(PNGVER) # NetBSD: #PNGLIB = $(LOCALBASE)/lib/libpng$(PNGVER).so #PNGHDR_DIR = $(LOCALBASE)/include # OSF/Tru64: #PNGLIB = /usr/local1/DEC/lib/libpng$(PNGVER).so #PNGHDR_DIR = /usr/local1/DEC/include # The zlib compression library. See above. You need it to build # anything that needs the PNG library (see above). If you selected # NONE for the PNG library, it doesn't matter what you specify here -- # it won't get used. # # If you have 'libpng-config' (see above), these are irrelevant. ZLIB = NONE ZHDR_DIR = #ZLIB = libz.so # The JBIG lossless image compression library (aka JBIG-KIT): JBIGLIB = $(INTERNAL_JBIGLIB) JBIGHDR_DIR = $(INTERNAL_JBIGHDR_DIR) # The Jasper JPEG-2000 image compression library (aka JasPer): JASPERLIB = $(INTERNAL_JASPERLIB) JASPERHDR_DIR = $(INTERNAL_JASPERHDR_DIR) # JASPERDEPLIBS is the libraries (-l options or file names) on which # The Jasper library depends -- i.e. what you have to link into any # executable that links in the Jasper library. JASPERDEPLIBS = #JASPERDEPLIBS = -ljpeg # And the Utah Raster Toolkit (aka URT aka RLE) library: URTLIB = $(BUILDDIR)/urt/librle.a URTHDR_DIR = $(SRCDIR)/urt # The X11 library has facilities for talking to an X Window System # server. It is required by Pamx. X11LIB = NONE X11HDR_DIR = #X11LIB = /usr/lib/libX11.so #X11HDR_DIR = # The Linux SVGA library (Svgalib) is a facility for displaying graphics # on the Linux console. It is required by Ppmsvgalib. LINUXSVGALIB = NONE LINUXSVGAHDR_DIR = #LINUXSVGALIB = /usr/lib/libvga.so #LINUXSVGAHDR_DIR = /usr/include/vgalib # WINICON_OBJECT is the object file to bind into all Netpbm executables # to provide the icon for Windows to use for it. Null for none. WINICON_OBJECT = #WINICON_OBJECT = $(BUILDDIR)/icon/netpbm.o # If you don't want any network functions, set OMIT_NETWORK to "Y". # The only thing that requires network functions is the option in # ppmtompeg to run it on multiple computers simultaneously. On some # systems network functions don't work or we haven't figured out how to # make them work, or they just aren't worth the effort. OMIT_NETWORK = #DJGPP/Windows, Tru64: # (there's some minor header problem that prevents network functions from # building on Tru64 2000.10.06) #OMIT_NETWORK = Y # These are -l options to link in the network libraries. Often, these are # built into the standard C library, so this can be null. This is irrelevant # if OMIT_NETWORK is "Y". NETWORKLD = # Solaris, SunOS: #NETWORKLD = -lsocket -lnsl # SCO: #NETWORKLD = -lsocket, -lresolv # DONT_HAVE_PROCESS_MGMT is Y if this system doesn't have the usual # Unix process management stuff - fork, wait, etc. N for a regular Unix # system. DONT_HAVE_PROCESS_MGMT = N # The following variables are used only by 'make install' (and the # variants of it). Paths here don't, for example, get built into any # programs. # This is where everything goes when you do 'make package', unless you # override it by setting 'pkgdir' on the Make command line. PKGDIR_DEFAULT = /tmp/netpbm # This is where test results are written when you do 'make check', unless # you override it by setting 'resultdir' on the Make command line. RESULTDIR_DEFAULT = /tmp/netpbm-test # Subdirectory of the package directory ($(pkgdir)) in which man pages # go. PKGMANDIR = man # File permissions for installed files. # Note that on some systems (e.g. Solaris), 'install' can't use the # mnemonic permissions - you have to use octal. # binaries (pbmmake, etc) INSTALL_PERM_BIN = 755 # u=rwx,go=rx # shared libraries (libpbm.so, etc) INSTALL_PERM_LIBD = 755 # u=rwx,go=rx # static libraries (libpbm.a, etc) INSTALL_PERM_LIBS = 644 # u=rw,go=r # header files (pbm.h, etc) INSTALL_PERM_HDR = 644 # u=rw,go=r # man pages (pbmmake.1, etc) INSTALL_PERM_MAN = 644 # u=rw,go=r # data files (pnmtopalm color maps, etc) INSTALL_PERM_DATA = 644 # u=rw,go=r # Specify the suffix that want the man pages to have. SUFFIXMANUALS1 = 1 SUFFIXMANUALS3 = 3 SUFFIXMANUALS5 = 5 #NETPBMLIBTYPE tells the kind of libraries that will get built to hold the #Netpbm library functions. The value is used only in make file tests. # "unixshared" means a unix-style shared library, typically named like # libxyz.so.2.3 NETPBMLIBTYPE = unixshared # "unixstatic" means a unix-style static library, (like libxyz.a) #NETPBMLIBTYPE = unixstatic # "dll" means a Windows DLL shared library #NETPBMLIBTYPE = dll # "dylib" means a Darwin/Mac OS shared library #NETPBMLIBTYPE = dylib #NETPBMLIBSUFFIX is the suffix used on whatever kind of library is #selected above. All this is used for is to construct library names. #The make files never examine the actual value. NETPBMLIBSUFFIX = so # "a" is the suffix for unix-style static libraries. It is also # traditionally used for shared libraries on AIX. The Visual Age C # manual says sometimes .so works on AIX, and GNU software for AIX # 5.1.0 does indeed use it. In our experiments, it works fine if you # name the library file explicitly on the link, but isn't in the -l # search order. If you name the library explicitly on the link, the # library must live in exactly the same position at run time, so we # can't use that. Therefore, you cannot build both static and shared # libraries with AIX. You have to choose. #NETPBMLIBSUFFIX = a # For HP-UX shared libraries: #NETPBMLIBSUFFIX = sl # Darwin/Mac OS shared library: #NETPBMLIBSUFFIX = dylib # Windows shared library: #NETPBMLIBSUFFIX = dll #STATICLIB_TOO is "Y" to signify that you want a static library built #and installed in addition to whatever library type you specified by #NETPBMLIBTYPE. If NETPBMLIBTYPE specified a static library, #STATICLIB_TOO simply has no effect. STATICLIB_TOO = Y #STATICLIB_TOO = N #STATICLIBSUFFIX is the suffix that static libraries have. It's #meaningless if you aren't building static libraries. STATICLIBSUFFIX = a #SHLIBPREFIXLIST is a blank-delimited list of prefixes that a filename #of a shared library may have on this system. Traditionally, it's #just "lib", as in libc or libnetpbm. On Windows, though, varying #prefixes are used when multiple alternative forms of a library are #available. The first prefix in this list is what we use to name the #Netpbm shared libraries. # # This variable controls how 'libopt' gets built. # SHLIBPREFIXLIST = lib #Cygwin: #SHLIBPREFIXLIST = cyg lib NETPBMSHLIBPREFIX = $(firstword $(SHLIBPREFIXLIST)) #DLLVER is used to version the DLLs built on cygwin or other #windowsish platforms. We can't add this to LIBROOT, or we'd #version the static libs (which is bad). We can't add this #at the end of the name (like unix does with so numbers) because #windows will only load dlls whose name ends in "dll". So, #we have this variable, which becomes the end of the library "root" name #for DLLs only. # # This variable controls how 'libopt' gets built. # DLLVER = #Cygwin #DLLVER = $(NETPBM_MAJOR_RELEASE) # RGB_DB_PATH is where Netpbm looks for the color database when the RGBDEF # environment variable is not set. See pm_config.in.h for details. RGB_DB_PATH = /usr/local/netpbm/rgb.txt:/usr/share/netpbm/rgb.txt:/etc/X11/rgb.txt:/usr/lib/X11/rgb.txt:/usr/share/X11/rgb.txt:/usr/X11R6/lib/X11/rgb.txt