Mercurial > hg > xemacs-beta
view src/vdb.c @ 4949:018e13fdeaeb
compile-related functions added, for use in Unicode-internal ws
-------------------- ChangeLog entries follow: --------------------
lisp/ChangeLog addition:
2010-01-17 Ben Wing <ben@xemacs.org>
* bytecomp-runtime.el:
* bytecomp-runtime.el (error-unless-tests-match): New.
* bytecomp-runtime.el (byte-compile-file-being-compiled): New.
* bytecomp-runtime.el (compiled-if): New.
* bytecomp-runtime.el (compiled-when): New.
Add functions for dealing with conditional compilation of different code
depending on the presence or absence of features. Necessary for some
Mule code where code is run during compilation (macros or eval-when-compile)
but, depending on how the code is written, the code itself will crash
either with or without Unicode-internal.
compiled-if and compiled-when are the basic functions for conditional
compilation. They automatically trigger an error message upon file
loading if, at that time, the test expression that selected which code
to compile does not have the same value as at compile time.
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Sun, 17 Jan 2010 04:52:48 -0600 |
| parents | 5333f383efbd |
| children | f395ee7ad844 |
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/* Virtual diry bit implementation (platform independent) for XEmacs. Copyright (C) 2005 Marcus Crestani. This file is part of XEmacs. XEmacs is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. XEmacs 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 for more details. You should have received a copy of the GNU General Public License along with XEmacs; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* Synched up with: Not in FSF. */ #include <config.h> #include "lisp.h" #include "gc.h" #include "mc-alloc.h" #include "vdb.h" typedef struct { Dynarr_declare (void *); } void_ptr_dynarr; void_ptr_dynarr *page_fault_table; /* Init page fault table and protect heap. */ void vdb_start_dirty_bits_recording (void) { Elemcount protected_pages = (Elemcount) protect_heap_pages (); page_fault_table = Dynarr_new2 (void_ptr_dynarr, void *); Dynarr_resize (page_fault_table, protected_pages); } /* Remove heap protection. */ void vdb_stop_dirty_bits_recording (void) { unprotect_heap_pages (); } /* Read page fault table and pass page faults to garbage collector. */ int vdb_read_dirty_bits (void) { int repushed_objects = 0; Elemcount count; for (count = Dynarr_length (page_fault_table); count; count--) repushed_objects += repush_all_objects_on_page (Dynarr_at (page_fault_table, count - 1)); Dynarr_free (page_fault_table); page_fault_table = 0; return repushed_objects; } /* Called by the page fault handler: add address to page fault table. */ void vdb_designate_modified (void *addr) { Dynarr_add (page_fault_table, addr); } /* For testing and debugging... */ DEFUN ("test-vdb", Ftest_vdb, 0, 0, "", /* Test virtual dirty bit implementation. Prints results to stderr. */ ()) { Rawbyte *p; char c; Elemcount count; /* Wrap up gc (if currently running). */ gc_full (); /* Allocate a buffer; it will have the default protection of PROT_READ|PROT_WRITE. */ p = (Rawbyte *) mc_alloc (mc_get_page_size()); set_lheader_implementation ((struct lrecord_header *) p, &lrecord_cons); fprintf (stderr, "Allocate p: [%p ... %p], length %d\n", p, p + mc_get_page_size (), (int) mc_get_page_size ()); /* Test read. */ fprintf (stderr, "Attempt to read p[666]... "); c = p[666]; fprintf (stderr, "read ok.\n"); /* Test write. */ fprintf (stderr, "Attempt to write 42 to p[666]... "); p[666] = 42; fprintf (stderr, "write ok, p[666] = %d\n", p[666]); /* Mark the buffer read-only and set environemnt for write-barrier. */ fprintf (stderr, "Write-protect the page.\n"); MARK_BLACK (p); vdb_start_dirty_bits_recording (); write_barrier_enabled = 1; /* Test write-barrier read. */ fprintf (stderr, "Attempt to read p[666]... "); c = p[666]; fprintf (stderr, "read ok.\n"); /* Test write-barrier write, program receives SIGSEGV. */ fprintf (stderr, "Attempt to write 23 to p[666]... "); p[666] = 23; fprintf (stderr, "Written p[666] = %d\n", p[666]); /* Stop write-barrier mode. */ write_barrier_enabled = 0; MARK_WHITE (p); vdb_unprotect (p, mc_get_page_size ()); for (count = Dynarr_length (page_fault_table); count; count--) if (Dynarr_at (page_fault_table, count - 1) == &p[666]) fprintf (stderr, "VALID page fault at %p\n", Dynarr_at (page_fault_table, count - 1)); else fprintf (stderr, "WRONG page fault at %p\n", Dynarr_at (page_fault_table, count - 1)); Dynarr_free (page_fault_table); return Qnil; } DEFUN ("test-segfault", Ftest_segfault, 0, 0, "", /* Test virtual dirty bit implementation: provoke a segfault on purpose. WARNING: this function causes a SEGFAULT on purpose and thus crashes XEmacs! This is only used for debbugging, e.g. for testing how the debugger behaves when XEmacs segfaults and the write barrier is enabled. */ ()) { Rawbyte *q = 0; q[0] = 23; return Qnil; } void syms_of_vdb (void) { DEFSUBR (Ftest_vdb); DEFSUBR (Ftest_segfault); }