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author | Andreas Schneider <asn@samba.org> | 2012-05-07 11:09:56 +0200 |
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committer | Andreas Schneider <asn@samba.org> | 2012-05-07 19:20:29 +0200 |
commit | 9423ac06aa2a88a1cf64d5256e948bbec33ecb91 (patch) | |
tree | 1574a5796fdc9c849e31bca3f090cd86bf4b580b /lib/talloc | |
parent | d99b7d0220d8bd694c0d997622a7a87eb09c5570 (diff) | |
download | samba-9423ac06aa2a88a1cf64d5256e948bbec33ecb91.tar.gz samba-9423ac06aa2a88a1cf64d5256e948bbec33ecb91.tar.bz2 samba-9423ac06aa2a88a1cf64d5256e948bbec33ecb91.zip |
doc: Fixes for the talloc context tutorial.
Diffstat (limited to 'lib/talloc')
-rw-r--r-- | lib/talloc/doc/tutorial_context.dox | 52 |
1 files changed, 27 insertions, 25 deletions
diff --git a/lib/talloc/doc/tutorial_context.dox b/lib/talloc/doc/tutorial_context.dox index 214131878f..593c15c83f 100644 --- a/lib/talloc/doc/tutorial_context.dox +++ b/lib/talloc/doc/tutorial_context.dox @@ -2,7 +2,7 @@ @page libtalloc_context Chapter 1: Talloc context @section context Talloc context -The talloc context is the most important part of this library for it is +The talloc context is the most important part of this library and is responsible for every single feature of this memory allocator. It is a logical unit which represents a memory space managed by talloc. @@ -19,17 +19,17 @@ char *str2 = talloc_strdup(NULL, "I AM a talloc context"); printf("%d\n", strcmp(str1, str2) == 0); free(str1); -talloc_free(str2); /* we can not use free(str2) */ +talloc_free(str2); /* we can not use free() on str2 */ @endcode This is possible because the context is internally handled as a special fixed-length structure called talloc chunk. Each chunk stores context metadata followed by the memory space requested by the programmer. When a talloc -function returns a context (pointer), it in fact returns a pointer to the user -space portion of the talloc chunk. And when we want to manipulate with this -context using talloc functions, the talloc library transforms the user-space -pointer back to the starting address of the chunk. This is also the reason why -we were unable to use <code>free(str2)</code> in the previous example - because +function returns a context (pointer), it will in fact return a pointer to the user +space portion of the talloc chunk. If we to manipulate this context using +talloc functions, the talloc library transforms the user-space pointer back to +the starting address of the chunk. This is also the reason why we were unable +to use <code>free(str2)</code> in the previous example - because <code>str2</code> does not point at the beginning of the allocated block of memory. This is illustrated on the next image: @@ -38,9 +38,11 @@ memory. This is illustrated on the next image: The type TALLOC_CTX is defined in talloc.h to identify a talloc context in function parameters. However, this type is just an alias for <code>void</code> and exists only for semantical reasons - thus we can differentiate between -<code>void*</code> (arbitrary data) and TALLOC_CTX* (talloc context). +<code>void *</code> (arbitrary data) and <code>TALLOC_CTX *</code> (talloc +context). @subsection metadata Context meta data + Every talloc context carries several pieces of internal information along with the allocated memory: @@ -123,9 +125,9 @@ talloc_free(user); @section keep-hierarchy Always keep the hieararchy steady! The talloc is a hierarchy memory allocator. The hierarchy nature is what makes -the programming more error proof. It makes the memory easier to manage and free. -Therefore, the first thing we should have on our mind is: <strong>always project -our data structures into the talloc context hierarchy</strong>. +the programming more error proof. It makes the memory easier to manage and to +free. Therefore, the first thing we should have on our mind is: <strong>always +project our data structures into the talloc context hierarchy</strong>. That means if we have a structure, we should always use it as a parent context for its elements. This way we will not encounter any troubles when freeing this @@ -133,16 +135,16 @@ structure or when changing its parent. The same rule applies for arrays. @section creating-context Creating a talloc context -Here are the most important functions that creates a new talloc context. +Here are the most important functions that create a new talloc context. @subsection type-safe Type-safe functions -It allocates the size that is necessary for the this type and returns a -new, properly-cast pointer. This is the preferred way to create a new context -as we can rely on the compiler to detect type mismatches. +It allocates the size that is necessary for the given type and returns a new, +properly-casted pointer. This is the preferred way to create a new context as +we can rely on the compiler to detect type mismatches. -They automatically set the name of the context to the name of the data type. -Which is used to simulate the dynamic type system. +The name of the context is automatically set to the name of the data type which +is used to simulate a dynamic type system. @code struct user *user = talloc(ctx, struct user); @@ -157,7 +159,7 @@ user->groups = NULL; struct user *user_zero = talloc_zero(ctx, struct user); @endcode -@subsection zero-length Zero-lenght contexts +@subsection zero-length Zero-length contexts The zero-length context is basically a context without any special semantical meaning. We can use it the same way as any other context. The only difference @@ -169,21 +171,21 @@ is not interesting to the caller. Allocating on a zero-length temporary context will make clean-up of the function simpler. @code -TALLOC_CTX *ctx = NULL; +TALLOC_CTX *tmp_ctx = NULL; struct foo *foo = NULL; struct bar *bar = NULL; /* new zero-length top level context */ -ctx = talloc_new(NULL); -if (ctx == NULL) { +tmp_ctx = talloc_new(NULL); +if (tmp_ctx == NULL) { return ENOMEM; } -foo = talloc(ctx, struct foo); -bar = talloc(ctx, struct bar); +foo = talloc(tmp_ctx, struct foo); +bar = talloc(tmp_ctx, struct bar); /* free everything at once */ -talloc_free(ctx); +talloc_free(tmp_ctx); @endcode @subsection context-see-also See also @@ -193,4 +195,4 @@ talloc_free(ctx); - @ref talloc_array - @ref talloc_string -*/
\ No newline at end of file +*/ |