The collector has at various times been compiled under Windows 95 & NT, with the original Microsoft SDK, with Visual C++ 2.0, 4.0, and 6, with the GNU win32 environment, with Borland 4.5, and recently with Watcom C. It is likely that some of these have been broken in the meantime. Patches are appreciated. It runs under both win32s and win32, but with different semantics. Under win32, all writable pages outside of the heaps and stack are scanned for roots. Thus the collector sees pointers in DLL data segments. Under win32s, only the main data segment is scanned. (The main data segment should always be scanned. Under some versions of win32s, other regions may also be scanned.) Thus all accessible objects should be accessible from local variables or variables in the main data segment. Alternatively, other data segments (e.g. in DLLs) may be registered with the collector by calling GC_init() and then GC_register_root_section(a), where a is the address of some variable inside the data segment. (Duplicate registrations are ignored, but not terribly quickly.) (There are two reasons for this. We didn't want to see many 16:16 pointers. And the VirtualQuery call has different semantics under the two systems, and under different versions of win32s.) The collector test program "gctest" is linked as a GUI application, but does not open any windows. Its output appears in the file "gc.log". It may be started from the file manager. The hour glass cursor may appear as long as it's running. If it is started from the command line, it will usually run in the background. Wait a few minutes (a few seconds on a modern machine) before you check the output. You should see either a failure indication or a "Collector appears to work" message. The cord test program has not been ported (but should port easily). A toy editor (cord/de.exe) based on cords (heavyweight strings represented as trees) has been ported and is included. It runs fine under either win32 or win32S. It serves as an example of a true Windows application, except that it was written by a nonexpert Windows programmer. (There are some peculiarities in the way files are displayed. The is displayed explicitly for standard DOS text files. As in the UNIX version, control characters are displayed explicitly, but in this case as red text. This may be suboptimal for some tastes and/or sets of default window colors.) In general -DREDIRECT_MALLOC is unlikely to work unless the application is completely statically linked. For Microsoft development tools, rename NT_MAKEFILE as MAKEFILE. (Make sure that the CPU environment variable is defined to be i386.) In order to use the gc_cpp.h C++ interface, all client code should include gc_cpp.h. Clients may need to define GC_NOT_DLL before including gc.h, if the collector was built as a static library (as it normally is in the absence of thread support). For GNU-win32, use the regular makefile, possibly after uncommenting the line "include Makefile.DLLs". The latter should be necessary only if you want to package the collector as a DLL. The GNU-win32 port is believed to work only for b18, not b19, probably dues to linker changes in b19. This is probably fixable with a different definition of DATASTART and DATAEND in gcconfig.h. For Borland tools, use BCC_MAKEFILE. Note that Borland's compiler defaults to 1 byte alignment in structures (-a1), whereas Visual C++ appears to default to 8 byte alignment (/Zp8). The garbage collector in its default configuration EXPECTS AT LEAST 4 BYTE ALIGNMENT. Thus the BORLAND DEFAULT MUST BE OVERRIDDEN. (In my opinion, it should usually be anyway. I expect that -a1 introduces major performance penalties on a 486 or Pentium.) Note that this changes structure layouts. (As a last resort, gcconfig.h can be changed to allow 1 byte alignment. But this has significant negative performance implications.) The Makefile is set up to assume Borland 4.5. If you have another version, change the line near the top. By default, it does not require the assembler. If you do have the assembler, I recommend removing the -DUSE_GENERIC. There is some support for incremental collection. This is currently pretty simple-minded. Pages are protected. Protection faults are caught by a handler installed at the bottom of the handler stack. This is both slow and interacts poorly with a debugger. Whenever possible, I recommend adding a call to GC_enable_incremental at the last possible moment, after most debugging is complete. Unlike the UNIX versions, no system calls are wrapped by the collector itself. It may be necessary to wrap ReadFile calls that use a buffer in the heap, so that the call does not encounter a protection fault while it's running. (As usual, none of this is an issue unless GC_enable_incremental is called.) Note that incremental collection is disabled with -DSMALL_CONFIG. James Clark has contributed the necessary code to support win32 threads. Use NT_THREADS_MAKEFILE (a.k.a gc.mak) instead of NT_MAKEFILE to build this version. Note that this requires some files whose names are more than 8 + 3 characters long. Thus you should unpack the tar file so that long file names are preserved. To build the garbage collector test with VC++ from the command line, use nmake /F ".\gc.mak" CFG="gctest - Win32 Release" This requires that the subdirectory gctest\Release exist. The test program and DLL will reside in the Release directory. This version relies on the collector residing in a dll. This version currently supports incremental collection only if it is enabled before any additional threads are created. Version 4.13 attempts to fix some of the earlier problems, but there may be other issues. If you need solid support for win32 threads, you might check with Geodesic Systems. Their collector must be licensed, but they have invested far more time in win32-specific issues. Hans Ivan V. Demakov's README for the Watcom port: The collector has been compiled with Watcom C 10.6 and 11.0. It runs under win32, win32s, and even under msdos with dos4gw dos-extender. It should also run under OS/2, though this isn't tested. Under win32 the collector can be built either as dll or as static library. Note that all compilations were done under Windows 95 or NT. For unknown reason compiling under Windows 3.11 for NT (one attempt has been made) leads to broken executables. Incremental collection is not supported. cord is not ported. Before compiling you may need to edit WCC_MAKEFILE to set target platform, library type (dynamic or static), calling conventions, and optimization options. To compile the collector and testing programs use the command: wmake -f WCC_MAKEFILE All programs using gc should be compiled with 4-byte alignment. For further explanations on this see comments about Borland. If gc compiled as dll, the macro ``GC_DLL'' should be defined before including "gc.h" (for example, with -DGC_DLL compiler option). It's important, otherwise resulting programs will not run. Ivan Demakov (email: ivan@tgrad.nsk.su)