** ex.h: exception handling (pre-processor part)
*/
-#ifndef __SG_EX_H__
-#define __SG_EX_H__
+#ifndef __XBT_EX_H__
+#define __XBT_EX_H__
#include <xbt/misc.h>
#include <xbt/sysdep.h>
/* declare the machine context type */
typedef struct { __ex_mctx_struct } __ex_mctx_t;
-/** Content of an exception */
+/** \ingroup XBT_ex
+ *
+ * This module is a small ISO-C++ style exception handling library
+ * for use in the ISO-C language. It allows you to use the paradigm
+ * of throwing and catching exceptions in order to reduce the amount
+ * of error handling code without hindering program robustness.
+ *
+ * This is achieved by directly transferring exceptional return codes
+ * (and the program control flow) from the location where the exception
+ * is raised (throw point) to the location where it is handled (catch
+ * point) -- usually from a deeply nested sub-routine to a parent
+ * routine. All intermediate routines no longer have to make sure that
+ * the exceptional return codes from sub-routines are correctly passed
+ * back to the parent.
+ *
+ * These features are brought to you by a modified version of the libex
+ * library, one of the numerous masterpiece of Ralf S. Engelschall.
+ *
+ * @section Introduction
+ *
+ * In SimGrid, exceptions is a triple <\a msg , \a category , \a value>
+ * where \a msg is a human-readable text describing the exceptional
+ * condition, \a code an integer describing what went wrong and \a value
+ * providing a sort of sub-category. (this is different in the original libex).
+ *
+ * @section Basic usage
+ *
+ * \em xbt_try \b TRIED_BLOCK [\em xbt_cleanup \b CLEANUP_BLOCK] \em xbt_catch (variable) \b CATCH_BLOCK
+ *
+ * This is the primary syntactical construct provided. It is modeled after the
+ * ISO-C++ try-catch clause and should sound familiar to most of you.
+ *
+ * Any exception thrown directly from the TRIED_BLOCK block or from called
+ * subroutines is caught. Cleanups which must be done after this block
+ * (whenever an exception arised or not) should be placed into the optionnal
+ * CLEANUP_BLOCK. The code dealing with the exceptions when they arise should
+ * be placed into the (mandatory) CATCH_BLOCK.
+ *
+ *
+ * In absence of exception, the control flow goes into the blocks TRIED_BLOCK
+ * and CLEANUP_BLOCK (if present); The CATCH_BLOCK block is then ignored.
+ *
+ * When an exception is thrown, the control flow goes through the following
+ * blocks: TRIED_BLOCK (up to the statement throwing the exception),
+ * CLEANUP_BLOCK (if any) and CATCH_BLOCK. The exception is stored in a
+ * variable for inspection inside the CATCH_BLOCK. This variable must be
+ * declared in the outter scope, but its value is only valid within the
+ * CATCH_BLOCK block.
+ *
+ * Some notes:
+ * - xbt_try, xbt_cleanup and xbt_catch cannot be used separately, they work
+ * only in combination and form a language clause as a whole.
+ * - In contrast to the syntax of other languages (such as C++ or Jave) there
+ * is only one xbt_catch block and not multiple ones (all exceptions are
+ * of the same C type xbt_t).
+ * - the variable of xbt_catch can naturally be reused in subsequent
+ * xbt_catch clauses.
+ * - it is possible to nest xbt_try clauses.
+ *
+ * The xbt_try block is a regular ISO-C language statement block, but it is not
+ * allowed to jump into it via "goto" or longjmp(3) or out of it via "break",
+ * "return", "goto" or longjmp(3) because there is some hidden setup and
+ * cleanup that needs to be done regardless of whether an exception is
+ * caught. Bypassing these steps will break the exception handling facility.
+ *
+ * The xbt_cleanup and xbt_catch blocks are regular ISO-C language statement
+ * blocks without any restrictions. You are even allowed to throw (and in the
+ * xbt_catch block to re-throw) exceptions.
+ *
+ * There is one subtle detail you should remember about xbt_try blocks:
+ * Variables used in the xbt_cleanup or xbt_catch clauses must be declared with
+ * the storage class "volatile", otherwise they might contain outdated
+ * information if an exception it thrown.
+ *
+ *
+ * This is because you usually do not know which commands in the xbt_try
+ * were already successful before the exception was thrown (logically speaking)
+ * and because the underlying ISO-C setjmp(3) facility applies those
+ * restrictions (technically speaking). As a matter of fact, value changes
+ * between the xbt_try and the xbt_throw may be discarded if you forget the
+ * "volatile" keyword.
+ *
+ * @section Advanced usage
+ *
+ * @subsection xbt_defer DEFERING_BLOCK
+ *
+ * This directive executes DEFERING_BLOCK while deferring the throwing of
+ * exceptions, i.e., exceptions thrown within this block are remembered, but
+ * the control flow still continues until the end of the block. At its end, the
+ * first exception which occured within the block (if any) is rethrown (any
+ * subsequent exceptions are ignored).
+ *
+ * DEFERING_BLOCK is a regular ISO-C language statement block, but it is not
+ * allowed to jump into it via "goto" or longjmp(3) or out of it via "break",
+ * "return", "goto" or longjmp(3). It is however allowed to nest xbt_defer
+ * clauses.
+ *
+ * @subsection xbt_shield SHIELDED_BLOCK
+ *
+ * This directive executes SHIELDED_BLOCK while shielding it against the
+ * throwing of exceptions, i.e., any exception thrown from this block or its
+ * subroutines are silently ignored.
+ *
+ * SHIELDED_BLOCK is a regular ISO-C language statement block, but it is not
+ * allowed to jump into it via "goto" or longjmp(3) or out of it via "break",
+ * "return", "goto" or longjmp(3). It is however allowed to nest xbt_shield
+ * clauses.
+ *
+ * @subsection Retrieving the current execution condition
+ *
+ * \a xbt_catching, \a xbt_deferred and \a xbt_shielding return a boolean
+ * indicating whether the current scope is within a TRYIED_BLOCK,
+ * DEFERING_BLOCK and SHIELDED_BLOCK (respectively)
+ *
+ * \section PROGRAMMING PITFALLS
+ *
+ * Exception handling is a very elegant and efficient way of dealing with
+ * exceptional situation. Nevertheless it requires additional discipline in
+ * programming and there are a few pitfalls one must be aware of. Look the
+ * following code which shows some pitfalls and contains many errors (assuming
+ * a mallocex() function which throws an exception if malloc(3) fails):
+ *
+ \verbatim
+// BAD EXAMPLE
+xbt_try {
+ char *cp1, *cp2, cp3;
+
+ cp1 = mallocex(SMALLAMOUNT);
+ globalcontext->first = cp1;
+ cp2 = mallocex(TOOBIG);
+ cp3 = mallocex(SMALLAMOUNT);
+ strcpy(cp1, "foo");
+ strcpy(cp2, "bar");
+} xbt_cleanup {
+ if (cp3 != NULL) free(cp3);
+ if (cp2 != NULL) free(cp2);
+ if (cp1 != NULL) free(cp1);
+} xbt_catch(ex) {
+ printf("cp3=%s", cp3);
+ ex_rethrow;
+}\endverbatim
+
+ * This example raises a few issues:
+ * -# \b variable scope\n
+ * Variables which are used in the xbt_cleanup or xbt_catch clauses must be
+ * declared before the xbt_try clause, otherwise they only exist inside the
+ * xbt_try block. In the example above, cp1, cp2 and cp3 only exist in the
+ * xbt_try block and are invisible from the xbt_cleanup and xbt_catch
+ * blocks.
+ * -# \b variable initialization \n
+ * Variables which are used in the xbt_cleanup or xbt_catch clauses must
+ * be initialized before the point of the first possible xbt_throw is
+ * reached. In the example above, xbt_cleanup would have trouble using cp3
+ * if mallocex() throws a exception when allocating a TOOBIG buffer.
+ * -# \b volatile variable \n
+ * Variables which are used in the xbt_cleanup or xbt_catch clauses MUST BE
+ * DECLARED AS "volatile", otherwise they might contain outdated
+ * information when an exception is thrown.
+ * -# \b clean before catch \n
+ * The xbt_cleanup clause is not only place before the xbt_catch clause in
+ * the source code, it also occures before in the control flow. So,
+ * resources being cleaned up cannot be used in the xbt_catch block. In the
+ * example, c3 gets freed before the printf placed in xbt_catch.
+ * -# \b variable uninitialization \n
+ * If resources are passed out of the scope of the
+ * xbt_try/xbt_cleanup/xbt_catch construct, they naturally shouldn't get
+ * cleaned up. The example above does free(3) cp1 in xbt_cleanup although
+ * its value was affected to globalcontext->first, invalidating this
+ * pointer.
+
+ * The following is fixed version of the code (annotated with the pitfall items
+ * for reference):
+ \verbatim
+// GOOD EXAMPLE
+{ / *01* /
+ char * volatile / *03* / cp1 = NULL / *02* /;
+ char * volatile / *03* / cp2 = NULL / *02* /;
+ char * volatile / *03* / cp3 = NULL / *02* /;
+ try {
+ cp1 = mallocex(SMALLAMOUNT);
+ globalcontext->first = cp1;
+ cp1 = NULL / *05 give away* /;
+ cp2 = mallocex(TOOBIG);
+ cp3 = mallocex(SMALLAMOUNT);
+ strcpy(cp1, "foo");
+ strcpy(cp2, "bar");
+ }
+ clean { / *04* /
+ printf("cp3=%s", cp3 == NULL / *02* / ? "" : cp3);
+ if (cp3 != NULL)
+ free(cp3);
+ if (cp2 != NULL)
+ free(cp2);
+ / *05 cp1 was given away * /
+ }
+ catch(ex) {
+ / *05 global context untouched * /
+ rethrow;
+ }
+}\endverbatim
+
+ *
+ * @{
+ */
+
+/** @brief Structure describing an exception */
typedef struct {
- char *msg; /*< human readable message; to be freed */
- int code; /*< category like HTTP (what went wrong) */
- int value; /*< like errno (why did it went wrong) */
+ char *msg; /**< human readable message; to be freed */
+ int category; /**< category like HTTP (what went wrong) */
+ int value; /**< like errno (why did it went wrong) */
/* throw point */
- char *host; /*< NULL for localhost; hostname:port if remote */
+ char *host; /* NULL for localhost; hostname:port if remote */
char *procname;
- char *file; /*< to be freed only for remote exceptions */
- int line;
- char *func; /*< to be freed only for remote exceptions */
+ char *file; /**< to be freed only for remote exceptions */
+ int line;
+ char *func; /**< to be freed only for remote exceptions */
} ex_t;
/* declare the context type (private) */
} ex_ctx_t;
/* the static and dynamic initializers for a context structure */
-#define SG_CTX_INITIALIZER \
+#define XBT_CTX_INITIALIZER \
{ NULL, 0, 0, 0, 0, 0, 0, { /* content */ NULL, 0, 0, \
/*throw point*/ NULL, NULL, NULL, 0, NULL } }
-#define SG_CTX_INITIALIZE(ctx) \
+#define XBT_CTX_INITIALIZE(ctx) \
do { \
(ctx)->ctx_mctx = NULL; \
(ctx)->ctx_deferred = 0; \
(ctx)->ctx_shield = 0; \
(ctx)->ctx_caught = 0; \
(ctx)->ctx_ex.msg = NULL; \
- (ctx)->ctx_ex.code = 0; \
+ (ctx)->ctx_ex.category = 0; \
(ctx)->ctx_ex.value = 0; \
(ctx)->ctx_ex.host = NULL; \
(ctx)->ctx_ex.procname = NULL; \
extern ex_term_cb_t __xbt_ex_terminate;
extern void __xbt_ex_terminate_default(ex_t *e);
-/* the block for trying execution */
-#define sg_try \
+/** @brief Introduce a block where exception may be dealed with
+ * @hideinitializer
+ */
+#define xbt_try \
{ \
ex_ctx_t *__xbt_ex_ctx_ptr = __xbt_ex_ctx(); \
int __ex_cleanup = 0; \
if (__ex_mctx_save(&__ex_mctx_me)) { \
if (1)
-/* the optional(!) block for cleanup */
-#define sg_cleanup \
+/** @brief optional(!) block for cleanup
+ * @hideinitializer
+ */
+#define xbt_cleanup \
else { \
} \
__xbt_ex_ctx_ptr->ctx_caught = 0; \
if (1) { \
if (1)
-/* the block for catching an exception */
-#define sg_catch(e) \
+/** @brief the block for catching (ie, deal with) an exception
+ * @hideinitializer
+ */
+#define xbt_catch(e) \
else { \
} \
if (!(__ex_cleanup)) \
} \
else
-/* the throwing of a new exception */
-#define sg_throw(c,v,m) \
+/** @brief Build an exception from the supplied arguments and throws it
+ * @hideinitializer
+ *
+ * If called from within a sg_try/sg_catch construct, this exception
+ * is copied into the sg_catch relevant variable program control flow
+ * is derouted to the sg_catch (after the optional sg_cleanup).
+ *
+ * If no sg_try/sg_catch conctruct embeeds this call, the program calls
+ * abort(3).
+ *
+ * The sg_throw can be performed everywhere, including inside sg_try,
+ * sg_cleanup and sg_catch blocks.
+ */
+#define xbt_throw(c,v,m) \
(( __xbt_ex_ctx()->ctx_shielding > 0 \
|| (__xbt_ex_ctx()->ctx_deferring > 0 && __xbt_ex_ctx()->ctx_deferred == 1)) ? 0 : \
(__xbt_ex_ctx()->ctx_ex.msg = bprintf(m), \
- __xbt_ex_ctx()->ctx_ex.code = (c), \
+ __xbt_ex_ctx()->ctx_ex.category = (c), \
__xbt_ex_ctx()->ctx_ex.value = (v), \
__xbt_ex_ctx()->ctx_ex.host = (char*)NULL, \
__xbt_ex_ctx()->ctx_ex.procname = strdup(xbt_procname()), \
? (__xbt_ex_terminate((ex_t *)&(__xbt_ex_ctx()->ctx_ex)), -1) \
: (__ex_mctx_restore(__xbt_ex_ctx()->ctx_mctx), 1) ))))
-/* the re-throwing of an already caught exception */
-#define sg_rethrow \
+/** @brief re-throwing of an already caught exception (ie, pass it to the upper catch block)
+ * @hideinitializer
+ */
+#define xbt_rethrow \
(( __xbt_ex_ctx()->ctx_shielding > 0 \
|| __xbt_ex_ctx()->ctx_deferring > 0) ? 0 : \
( __xbt_ex_ctx()->ctx_mctx == NULL \
? (__xbt_ex_terminate((ex_t *)&(__xbt_ex_ctx()->ctx_ex)), -1) \
: (__ex_mctx_restore(__xbt_ex_ctx()->ctx_mctx), 1) ))
-/* shield an operation from exception handling */
-#define sg_shield \
+/** @brief shield an operation from exception handling
+ * @hideinitializer
+ */
+#define xbt_shield \
for (__xbt_ex_ctx()->ctx_shielding++, \
__xbt_ex_ctx()->ctx_shield = 1; \
__xbt_ex_ctx()->ctx_shield == 1; \
__xbt_ex_ctx()->ctx_shield = 0, \
__xbt_ex_ctx()->ctx_shielding--)
-/* defer immediate exception handling */
-#define sg_defer \
+/** @brief defer immediate exception handling
+ * @hideinitializer
+ */
+#define xbt_defer \
for (((__xbt_ex_ctx()->ctx_deferring)++ == 0 ? __xbt_ex_ctx()->ctx_deferred = 0 : 0), \
__xbt_ex_ctx()->ctx_defer = 1; \
__xbt_ex_ctx()->ctx_defer == 1; \
__xbt_ex_ctx()->ctx_defer = 0, \
- ((--(__xbt_ex_ctx()->ctx_deferring) == 0 && __xbt_ex_ctx()->ctx_deferred == 1) ? sg_rethrow : 0))
+ ((--(__xbt_ex_ctx()->ctx_deferring) == 0 && __xbt_ex_ctx()->ctx_deferred == 1) ? xbt_rethrow : 0))
-/* exception handling tests */
-#define sg_catching \
+/** @brief exception handling tests
+ * @hideinitializer
+ */
+#define xbt_catching \
(__xbt_ex_ctx()->ctx_mctx != NULL)
-#define sg_shielding \
+/** @brief exception handling tests
+ * @hideinitializer
+ */
+#define xbt_shielding \
(__xbt_ex_ctx()->ctx_shielding > 0)
-#define sg_deferring \
+/** @brief exception handling tests
+ * @hideinitializer
+ */
+#define xbt_deferring \
(__xbt_ex_ctx()->ctx_deferring > 0)
/* optional namespace mapping */
#if defined(__EX_NS_UCCXX__)
-#define Try sg_try
-#define Cleanup sg_cleanup
-#define Catch sg_catch
-#define Throw sg_throw
-#define Rethrow sg_rethrow
-#define Shield sg_shield
-#define Defer sg_defer
+#define Try xbt_try
+#define Cleanup xbt_cleanup
+#define Catch xbt_catch
+#define Throw xbt_throw
+#define Rethrow xbt_rethrow
+#define Shield xbt_shield
+#define Defer xbt_defer
#elif defined(__EX_NS_CXX__) || (!defined(__cplusplus) && !defined(__EX_NS_CUSTOM__))
-#define try sg_try
-#define cleanup sg_cleanup
-#define catch sg_catch
-#define throw sg_throw
-#define rethrow sg_rethrow
-#define shield sg_shield
-#define defer sg_defer
+#define try xbt_try
+#define cleanup xbt_cleanup
+#define catch xbt_catch
+#define throw xbt_throw
+#define rethrow xbt_rethrow
+#define shield xbt_shield
+#define defer xbt_defer
#endif
-#endif /* __SG_EX_H__ */
+/** @} */
+#endif /* __XBT_EX_H__ */