will be described later.
\begin{describe}[struct kwval]{type}
- {struct kwval \{ \\ \ind
- const char *kw; \\
- const void *val; \- \\
+ {struct kwval \{ \\ \ind
+ const char *kw; \\
+ const void *val; \-\\
\};}
The @|kwval| structure describes a keyword argument name/value pair. The
\end{describe}
\begin{describe}[struct kwtab]{type}
- {struct kwtab \{ \\ \ind
- const struct kwval *v; \\
- size_t n; \- \\
+ {struct kwtab \{ \\ \ind
+ const struct kwval *v; \\
+ size_t n; \-\\
\};}
The @|kwtab| structure describes a list of keyword arguments, represented
\end{prog}
with no separation between them. For example:
\begin{prog}
- \#define example_KWSET(_) @\\ \\ \ind
- _(int, x, 0) @\\ \\
+ \#define example_KWSET(_) \macsl \\ \ind
+ _(int, x, 0) \macsl \\
_(const char *, y, NULL)
\end{prog}
The macro @|KWSET_PARSEFN| defines a keyword argument \emph{parser
function}
\begin{prog}
- void @<set>{}_kwparse(\=struct @<set>{}_kwargs *@<kw>,
- const char *@<kwfirst>, va_list *@<ap>, \+ \\
- const struct kwval *@<v>, size_t @<n>);
+ void @<set>{}_kwparse%
+ (\=struct @<set>{}_kwargs *@<kw>,
+ const char *@<kwfirst>, va_list *@<ap>, \+\\
+ const struct kwval *@<v>, size_t @<n>);
\end{prog}
The macro call can (and usually will) be preceded by storage class
specifiers such as @|static|, for example to adjust the linkage of the
purpose, the argument vector @<v> is scanned \emph{after} the
variable-length argument tail captured in @<ap>.)
- The variable-argument tail is read from the list described by @|*
@<ap>|.
+ The variable-argument tail is read from the list described by @|*@<ap>|.
The argument tail is expected to consist of alternating keyword strings (as
ordinary null-terminated strings) and the corresponding values, terminated
by a null pointer of type @|const char~*| in place of a keyword; except
which expects keyword arguments, but don't supply any and forget the null
pointer which terminates the (empty) list.} %
If @<kwfirst> is a null pointer, then @<ap> need not be a valid pointer;
- otherwise, the cursor object @|*
@<ap>| will be modified as the function
+ otherwise, the cursor object @|*@<ap>| will be modified as the function
extracts successive arguments from the tail.
The keyword vector is read from the vector of @|kwval| structures starting
\end{describe}
\begin{describe}[kw_parseempty]{fun}
- {void kw_parseempty(\=const char *@<set>,
- const char *@<kwfirst>, va_list *@<ap>, \+ \\
- const struct kwval *@<v>, size_t @<n>);}
+ {void kw_parseempty%
+ (\=const char *@<set>,
+ const char *@<kwfirst>, va_list *@<ap>, \+\\
+ const struct kwval *@<v>, size_t @<n>);}
This function checks an keyword argument list to make sure that contains no
keyword arguments (other than the special ones described in
\xref{sec:runtime.keywords.calling}).
\begin{prog}
\#define KWARGS_TEST(k, val) KWARGS(K(k, val) K(kw.unknown, 0))
- \\+
+ \\+
static jmp_buf kw_test_jmp;
- \\+
- static void kw_test_unknown(const char *set, const char *kw) \\
- \{ \\ \ind
- if (strcmp(kw, "kw.unknown")) longjmp(kw_test_jmp, 1); \\
- else longjmp(kw_test_jmp, 2); \- \\
- \}
- \\+
- \#define KW_TEST(flag, set, call) do \{ @\\ \\ \ind
- kw_unkhookfn *oldunk = kw_unkhook; @\\ \\
- kw_unkhook = kw_test_unknown; @\\ \\
- switch (setjmp(kw_test_jmp)) \{ @\\ \\ \ind
- case 0: call; abort(); @\\ \\
- case 1: flag = 1; break; @\\ \\
- case 2: flag = 0; break; @\\ \\
- default: abort(); \- @\\ \\
- \} @\\ \\
- kw_unkhook = oldunk; \- @\\ \\
- \} while (0)
- \\+
- /* Example of use */ \\
- int f; \\
+ \\+
+ static void kw_test_unknown(const char *set, const char *kw) \\
+ \{ \\ \ind
+ if (strcmp(kw, "kw.unknown")) longjmp(kw_test_jmp, 1); \\
+ else longjmp(kw_test_jmp, 2); \-\\
+ \} \\+
+
+ \#define KW_TEST(flag, set, call) do \{ \macsl \\ \ind
+ kw_unkhookfn *oldunk = kw_unkhook; \macsl \\
+ kw_unkhook = kw_test_unknown; \macsl \\
+ switch (setjmp(kw_test_jmp)) \{ \macsl \\ \ind
+ case 0: call; abort(); \macsl \\
+ case 1: flag = 1; break; \macsl \\
+ case 2: flag = 0; break; \macsl \\
+ default: abort(); \macsl\-\\
+ \} \macsl \\
+ kw_unkhook = oldunk; \macsl\-\\
+ \} while (0) \\+
+
+ @/* Example of use */ \\
+ int f; \\
KW_TEST(f, somefunc(1, "two", 3, KWARGS_TEST("shiny", 68.7))); \\
- /\=* now f is nonzero if `somefunc' accepts the `shiny' keyword \+ \\
- {}* (which we hope wants a double argument) \\
+ /\=* \comment{now @|f| is nonzero if @|somefunc| accepts the
+ @|shiny| keyword} \+\\
+ {}* \comment{(which we hope wants a @|double| argument)} \\
{}*/
\end{prog}
will require different run-time support machinery.
-\subsection{Infrastructure macros} \label{ch:runtime.object.infra}
+\subsection{Layout utilities} \label{sec:runtime.object.layout}
-The runtime support functionality defined here generally expects that
-instances and classes inherit from the standard @|SodObject| root object.
-While the translator can (at some effort) support alternative roots, they
-will require different run-time support machinery.
+The following macros are useful in finding one's way around an instance
+layout structure, given various levels of information about what kind of
+object one is dealing with, or for computing the tables which are used for
+this kind of navigation.
These macros are mostly intended for use in code generated by the Sod
translator. Others may find them useful for special effects, but they can be
tricky to understand and use correctly and can't really be recommended for
general use.
-\begin{describe}[SOD_XCHAIN]{mac}
- {void *SOD_CHAIN(@<chead>, const @<cls> *@<obj>);}
- Performs a `cross-chain upcast'.
-
- Given a pointer @<obj> to an instance of a class of type @<cls> and the
- nickname @<chead> of the least specific class in one of @<cls>'s superclass
- chains which does not contain @<cls> itself, @|SOD_XCHAIN| returns the
- address of that chain's storage within the instance layout as a raw
- @|void~*| pointer. (Note that @<cls> is not mentioned explicitly.)
-
- This macro is used by the generated @|@<CLASS>{}__CONV_@<CLS>| conversion
- macros, which you are encouraged to use instead where possible.
-\end{describe}
-
\begin{describe}[SOD_OFFSETDIFF]{mac}
{ptrdiff_t SOD_OFFSETDIFF(@<type>, @<member>_1, @<member>_2);}
Returns the signed offset between two members of a structure or union type.
@|SOD_INSTBASE| macro (described below) is more suited to general use.
\end{describe}
-
-\subsection{Utility macros} \label{sec:runtime.object.utility}
-
-The following macros are expected to be useful in Sod method definitions and
-client code.
-
-\begin{describe}[SOD_CLASSOF]{mac}
- {const void *SOD_CLASSOF(const @<cls> *@<obj>);}
- Returns the class object describing an instance's dynamic class.
-
- Given a pointer @<obj> to an instance, @|SOD_CLASSOF| returns a pointer to
- @<obj>'s dynamic class, which (assuming @<obj> is typed correctly in the
- first place) will be a subclass of @<cls>. (If you wanted the class object
- for @<cls> itself, it's called @|@<cls>{}__class|.)
-\end{describe}
-
\begin{describe}[SOD_INSTBASE]{mac}{void *SOD_INSTBASE(const @<cls> *@<obj>)}
Finds the base address of an instance's layout.
knowledge of the instance's dynamic class.
\end{describe}
-\begin{describe}[SOD_CONVERT]{mac}
- {@<cls> *SOD_CONVERT(@<cls>, const void *@<obj>);}
- Perform general conversions (up-, down-, and cross-casts) on instance
- pointers.
-
- Given a class name @<cls> and a pointer @<obj> to an instance,
- @|SOD_CONVERT| returns an appropriately converted pointer to @<obj> if
- @<obj> is indeed an instance of (some subclass of) @<cls>; otherwise it
- returns a null pointer.
+\subsection{Classes} \label{sec:runtime.object.class}
- This macro is a simple wrapper around the @|sod_convert| function described
- below, which is useful in the common case that the target class is known
- statically.
-\end{describe}
-
-\begin{describe}[SOD_DECL]{mac}{SOD_DECL(@<cls>, @<var>);}
- Declares and initializes an instance with automatic storage duration.
+The following macros and functions query the runtime relationships between
+instances and classes.
- Given a class name @<cls> and an identifier @<var>, @|SOD_DECL| declares
- @<var> to be a pointer to an instance of @<cls>. The instance is
- initialized in the sense that its vtable and class pointers have been set
- up, and slots for which initializers are defined are set to the appropriate
- initial values.
+\begin{describe}[SOD_CLASSOF]{mac}
+ {const SodClass *SOD_CLASSOF(const @<cls> *@<obj>);}
+ Returns the class object describing an instance's dynamic class.
- The instance has automatic storage duration: pointers to it will become
- invalid when control exits the scope of the declaration.
+ Given a pointer @<obj> to an instance, @|SOD_CLASSOF| returns a pointer to
+ @<obj>'s dynamic class, which (assuming @<obj> is typed correctly in the
+ first place) will be a subclass of @<cls>. (If you wanted the class object
+ for @<cls> itself, it's called @|@<cls>{}__class|.)
\end{describe}
-
-\subsection{Functions} \label{sec:runtime.object.functions}
-
-The following functions are provided in @|libsod|.
-
\begin{describe}[sod_subclassp]{fun}
{int sod_subclassp(const SodClass *@<sub>, const SodClass *@<super>);}
effort has been made to make it perform well it's still not very fast.
\end{describe}
-\begin{describe}[sod_convert]{fun}
- {void *sod_convert(const SodClass *@<cls>, const void *@<obj>);}
- Performs general conversions (up-, down-, and cross-casts) on instance
+
+\subsection{Conversions} \label{sec:runtime.object.conversions}
+
+The following macros and functions are used to convert instance pointers of
+some (static) type into instance pointers of other static types to the same
+instance.
+
+\begin{describe}[SOD_XCHAIN]{mac}
+ {void *SOD_XCHAIN(@<chead>, const @<cls> *@<obj>);}
+ Performs a `cross-chain upcast'.
+
+ Given a pointer @<obj> to an instance of a class of type @<cls> and the
+ nickname @<chead> of the least specific class in one of @<cls>'s superclass
+ chains which does not contain @<cls> itself, @|SOD_XCHAIN| returns the
+ address of that chain's storage within the instance layout as a raw
+ @|void~*| pointer. (Note that @<cls> is not mentioned explicitly.)
+
+ This macro is used by the generated @|@<cls>{}__CONV_@<c>| conversion
+ macros, which you are encouraged to use instead where possible.
+\end{describe}
+
+\begin{describe*}
+ {\dhead[SOD_CONVERT]{mac}
+ {@<cls> *SOD_CONVERT(@<cls>, const void *@<obj>);}
+ \dhead[sod_convert]{fun}
+ {void *sod_convert(const SodClass *@<cls>, const void *@<obj>);}}
+ Perform general conversions (up-, down-, and cross-casts) on instance
pointers.
- Given a class pointer @<cls> and an instance pointer @<obj>, @|sod_convert|
- returns an appropriately converted pointer to @<obj> in the case that
- @<obj> is an instance of (some subclass of) @<cls>; otherwise it returns
- null.
+ Given a class @<cls> and a pointer @<obj> to an instance, return an
+ appropriately converted pointer to @<obj> if @<obj> is indeed an instance
+ of (some subclass of) @<cls>; otherwise return a null pointer.
+
+ The @|SOD_CONVERT| macro expects @<cls> to be a class name; the
+ @|sod_convert| function expects a pointer to a class object instead.
This involves a run-time trawl through the class structures: while some
effort has been made to make it perform well it's still not very fast. For
upcasts (where @<cls> is a superclass of the static type of @<obj>) the
automatically defined conversion macros should be used instead, because
- they're much faster and can't fail. When the target class is known
- statically, it's slightly more convenient to use the @|SOD_CONVERT| macro
- instead.
+ they're much faster and can't fail.
+
+ When the target class is known statically, it's slightly more convenient to
+ use the @|SOD_CONVERT| macro than the @|sod_convert| function, since the
+ class object name is longer and uglier, and the macro returns a pointer of
+ the correct type.
+\end{describe*}
+
+
+\subsection{Instance lifecycle}
+\label{sec:runtime.object.lifecycle}
+
+The following macros and functions manage the standard steps along an
+instance's lifecycle.
+
+\subsubsection{Low-level operations}
+The following macros and functions are agnostic with respect to storage
+allocation strategies. They don't concern themselves with allocation or
+deallocation, and applications are free to use any suitable mechanism.
+
+\begin{describe*}
+ {\dhead[SOD_INIT]{mac}
+ {@<cls> *SOD_INIT(@<cls>, void *@<p>, @<keywords>);}
+ \dhead[sod_init]{fun}
+ {void *sod_init(const SodClass *@<cls>, void *@<p>, \dots);}
+ \dhead[sod_initv]{fun}
+ {void *sod_initv(const SodClass *@<cls>, void *@<p>, va_list @<ap>);}}
+ Imprints and initializes an instance of a class @<cls> in the storage
+ starting at address~@<p>.
+
+ The direct class for the new instance is specified as a class name to
+ @|SOD_INIT|, or a pointer to a class object to the functions.
+
+ Keyword arguments for the initialization message may be provided. The
+ @|SOD_INIT| macro expects a single preprocessor-time argument which is
+ a use of one of \descref{KWARGS}{mac} or \descref{NO_KWARGS}{mac}; the
+ @|sod_init| function expects the keywords as a variable-length argument
+ tail; and @|sod_initv| expects the keywords to be passed indirectly,
+ through the captured argument-tail cursor @<ap>.
+
+ The return value is an instance pointer for the class @<cls>; the
+ @|SOD_INIT| macro will have converted it to the correct type, so it should
+ probably be used where possible. In fact, this is guaranteed to be equal
+ to @<p> by the layout rules described in
+ \xref{sec:structures.layout.instance}.
+\end{describe*}
+
+\begin{describe}[sod_teardown]{fun}{int sod_teardown(void *@<p>);}
+ Tears down an instance of a class, releasing any resources it holds.
+
+ This function is a very thin wrapper around sending the @|obj.teardown|
+ message. See the description of that message
+ (page~\pageref{msg:obj.teardown}) and \xref{sec:concepts.lifecycle.death}
+ for details.
+\end{describe}
+
+\subsubsection{Automatic storage duration}
+The following macro constructs an instance with automatic storage duration.
+
+\begin{describe}[SOD_DECL]{mac}{SOD_DECL(@<cls>, @<var>, @<keywords>);}
+ Declares and initializes an instance with automatic storage duration.
+
+ Given a class name @<cls> and an identifier @<var>, @|SOD_DECL| declares
+ @<var> to be a pointer to an instance of @<cls>. The instance is
+ initialized in the sense that its vtable and class pointers have been set
+ up, and slots for which initializers are defined are set to the appropriate
+ initial values.
+
+ Keyword arguments for the initialization message may be provided. The
+ macro expects a single preprocessor-time argument which is a use of one of
+ \descref{KWARGS}{mac} or \descref{NO_KWARGS}{mac}.
+
+ The instance has automatic storage duration: pointers to it will become
+ invalid when control exits the scope of the declaration. If necessary, the
+ instance should be torn down before this happens, using the
+ \descref{sod_teardown}[function]{fun}.
+\end{describe}
+
+\subsubsection{Dynamic allocation}
+The following macros and functions deal with objects allocated from the
+standard C heap. They don't work in freestanding implementations where
+@|malloc| and @|free| are not available.
+
+\begin{describe*}
+ {\dhead[SOD_MAKE]{mac}{@<cls> *SOD_MAKE(@<cls>, @<keywords>);}
+ \dhead[sod_make]{fun}{void *sod_make(const SodClass *@<cls>, \dots);}
+ \dhead[sod_makev]{fun}
+ {void *sod_makev(const SodClass *@<cls>, va_list @<ap>);}}
+ Constructs and returns a pointer to a new instance of @<cls>.
+
+ The direct class for the new instance is specified as a class name to
+ @|SOD_MAKE|, or a class object to the functions.
+
+ Keyword arguments for the initialization message may be provided. The
+ @|SOD_MAKE| macro expects a single preprocessor-time argument which is
+ a use of one of \descref{KWARGS}{mac} or \descref{NO_KWARGS}{mac}; the
+ @|sod_make| function expects the keywords as a variable-length argument
+ tail; and @|sod_makev| expects the keywords to be passed indirectly,
+ through the captured argument-tail cursor @<ap>.
+
+ Storage for the new instance will have been allocated using the standard
+ @|malloc| function. The easiest way to destroy the instance, when it is no
+ longer needed, is probably to call the
+ \descref{sod_destroy}[function]{fun}.
+
+ The return value is an instance pointer for the class @<cls>; the
+ @|SOD_MAKE| macro will have converted it to the correct type, so it should
+ probably be used where possible.
+\end{describe*}
+
+\begin{describe}[sod_destroy]{fun}{int sod_destroy(void *@<p>);}
+ Tears down and frees an instance allocated using @|malloc|.
+
+ The pointer @<p> should be an instance pointer, i.e., a pointer to any of
+ an instance's chains. The instance is torn down, by sending it the
+ \descref{obj.teardown}[message]{msg}. If the instance reports itself ready
+ for deallocation, then its storage is released using @|free|. The return
+ value is the value returned by the @|obj.teardown| message.
\end{describe}
%%%----- That's all, folks --------------------------------------------------
~mdw / sod / blobdiff