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authorUlrich Drepper <drepper@redhat.com>2006-11-10 21:12:47 +0000
committerUlrich Drepper <drepper@redhat.com>2006-11-10 21:12:47 +0000
commit6decd24cc22116dea9da17c548d0ea0e9b6d5bfc (patch)
tree4d3462cb2df095944ff830ca20fd2b371b605eb8 /manual/memory.texi
parent4260af60e9361dbb07af8e0e6ce28cdfa6e0bdba (diff)
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[BZ #3483]
	* elf/ldconfig.c (main): Call setlocale and textdomain.
	Patch mostly by Benno Schulenberg <bensberg@justemail.net>.
Diffstat (limited to 'manual/memory.texi')
-rw-r--r--manual/memory.texi8
1 files changed, 4 insertions, 4 deletions
diff --git a/manual/memory.texi b/manual/memory.texi
index 91b9d84eb2..cbe147b712 100644
--- a/manual/memory.texi
+++ b/manual/memory.texi
@@ -31,7 +31,7 @@ One of the most basic resources a process has available to it is memory.
 There are a lot of different ways systems organize memory, but in a
 typical one, each process has one linear virtual address space, with
 addresses running from zero to some huge maximum.  It need not be
-contiguous; i.e.  not all of these addresses actually can be used to
+contiguous; i.e., not all of these addresses actually can be used to
 store data.
 
 The virtual memory is divided into pages (4 kilobytes is typical).
@@ -1065,7 +1065,7 @@ This is the total size of memory occupied by free (not in use) chunks.
 
 @item int keepcost
 This is the size of the top-most releasable chunk that normally
-borders the end of the heap (i.e. the high end of the virtual address
+borders the end of the heap (i.e., the high end of the virtual address
 space's data segment).
 
 @end table
@@ -2407,7 +2407,7 @@ of the data segment is.
 @cindex paging
 
 You can tell the system to associate a particular virtual memory page
-with a real page frame and keep it that way --- i.e. cause the page to
+with a real page frame and keep it that way --- i.e., cause the page to
 be paged in if it isn't already and mark it so it will never be paged
 out and consequently will never cause a page fault.  This is called
 @dfn{locking} a page.
@@ -2467,7 +2467,7 @@ A memory lock is associated with a virtual page, not a real frame.  The
 paging rule is: If a frame backs at least one locked page, don't page it
 out.
 
-Memory locks do not stack.  I.e. you can't lock a particular page twice
+Memory locks do not stack.  I.e., you can't lock a particular page twice
 so that it has to be unlocked twice before it is truly unlocked.  It is
 either locked or it isn't.