2005-09-15 09:58:31 -04:00
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#ifndef EL__UTIL_ERROR_H
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#define EL__UTIL_ERROR_H
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/* Here you will found a chunk of functions useful for error states --- from
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* reporting of various problems to generic error tests/workarounds to some
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* tools to be used when you got into an error state already. Some of the
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* functions are also useful for debugging. */
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/* This errfile thing is needed, as we don't have var-arg macros in standart,
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* only as gcc extension :(. */
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extern int errline;
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extern unsigned char *errfile;
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/* @DBG(format_string) is used for printing of debugging information. It
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* should not be used anywhere in the official codebase (although it is often
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* lying there commented out, as it may get handy). */
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#undef DBG
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#define DBG errfile = __FILE__, errline = __LINE__, elinks_debug
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void elinks_debug(unsigned char *fmt, ...);
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/* @WDBG(format_string) is used for printing of debugging information, akin
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* to DBG(). However, it sleep(1)s, therefore being useful when it is going
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* to be overdrawn or so. It should not be used anywhere in the official
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* codebase (although it is often lying there commented out, as it may get
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* handy). */
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#undef WDBG
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#define WDBG errfile = __FILE__, errline = __LINE__, elinks_wdebug
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void elinks_wdebug(unsigned char *fmt, ...);
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/* @ERROR(format_string) is used to report non-fatal unexpected errors during
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* the ELinks run. It tries to (not that agressively) draw user's attention to
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* the error, but never dumps core or so. Note that this should be used only in
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* cases of non-severe internal inconsistences etc, never as an indication of
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* user error (bad parameter, config file error etc.). We have usrerror() for
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* this kind of stuff, and there's nothing naughty about using that. */
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#undef ERROR
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#define ERROR errfile = __FILE__, errline = __LINE__, elinks_error
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void elinks_error(unsigned char *fmt, ...);
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/* @INTERNAL(format_string) is used to report fatal errors during the ELinks
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* run. It tries to draw user's attention to the error and dumps core if ELinks
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* is running in the CONFIG_DEBUG mode. */
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#undef INTERNAL
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#define INTERNAL errfile = __FILE__, errline = __LINE__, elinks_internal
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void elinks_internal(unsigned char *fmt, ...);
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/* @usrerror(format_string) is used to report user errors during a peaceful
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* ELinks run. It does not belong to the family above - it doesn't print code
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* location, beep nor sleep, it just wraps around fprintf(stderr, "...\n");. */
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void usrerror(unsigned char *fmt, ...);
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#ifdef HAVE_VARIADIC_MACROS
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#ifdef CONFIG_DEBUG
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/* The LOG_*() macros can be used to log to a file, however, by default log
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* messages are written to stderr. Set the following environment variables
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* to configure the log behavior:
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*
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* ELINKS_LOG - The path to the log file, it is opened for appending
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* ELINKS_MSG - A comma separated list containing "error", "warn",
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* "info" and/or "debug" which can be used to limit
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* what messages to emit to the log.
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* ELINKS_FILES - A comma separated list of which files names to
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* emit log messages from.
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*/
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void
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elinks_log(unsigned char *msg, unsigned char *file, int line,
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unsigned char *fmt, ...);
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#undef LOG_ERR
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#define LOG_ERR(args...) \
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elinks_log("error", __FILE__, __LINE__, args)
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#undef LOG_WARN
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#define LOG_WARN(args...) \
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elinks_log("warn", __FILE__, __LINE__, args)
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#undef LOG_INFO
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#define LOG_INFO(args...) \
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elinks_log("info", __FILE__, __LINE__, args)
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#undef LOG_DBG
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#define LOG_DBG(args...) \
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elinks_log("debug", __FILE__, __LINE__, args)
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#endif
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#endif
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/* This is our smart assert(). It is basically equivalent to if (x) INTERNAL(),
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* but it generates a uniform message and mainly does not do the test if we are
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* supposed to be lightning fast. Use it, use it a lot! And never forget the
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* recovery path, see below if_assert_failed. */
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#undef assert
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#ifdef CONFIG_FASTMEM
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#define assert(x) /* We don't do anything in CONFIG_FASTMEM mode. */
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#else
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#define assert(x) \
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do { if (!assert_failed && (assert_failed = !(x))) { \
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INTERNAL("assertion " #x " failed!"); \
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} } while (0)
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#endif
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/* This is extended assert() version, it can print additional user-specified
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* message. Quite useful not only to detect that _something_ is wrong, but also
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* _how_ wrong is it ;-). Note that the format string must always be a regular
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* string, not a variable reference. Also, be careful _what_ will you attempt
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* to print, or you could easily get just a SIGSEGV instead of the assertion
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* failed message. */
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#undef assertm
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#ifdef HAVE_VARIADIC_MACROS
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#ifdef CONFIG_FASTMEM
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#define assertm(x,m...) /* We don't do anything in CONFIG_FASTMEM mode. */
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#else
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#define assertm(x,m...) \
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do { if (!assert_failed && (assert_failed = !(x))) { \
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INTERNAL("assertion " #x " failed: " m); \
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} } while (0)
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#endif
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#else /* HAVE_VARIADIC_MACROS */
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#ifdef CONFIG_FASTMEM
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#define assertm elinks_assertm
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#else
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#define assertm errfile = __FILE__, errline = __LINE__, elinks_assertm
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#endif
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/* This is not nice at all, and does not really work that nice as macros do
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* But it is good to try to do at least _some_ assertm()ing even when the
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* variadic macros are not supported. */
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/* XXX: assertm() usage could generate warnings (we assume that the assert()ed
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* expression is int (and that's completely fine, I do *NOT* want to see any
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* stinking assert((int) pointer) ! ;-)), so CONFIG_DEBUG (-Werror) and
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* !HAVE_VARIADIC_MACROS won't play well together. Hrm. --pasky */
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#ifdef CONFIG_FASTMEM
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static inline
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#endif
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void elinks_assertm(int x, unsigned char *fmt, ...)
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#ifdef CONFIG_FASTMEM
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{
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/* We don't do anything in CONFIG_FASTMEM mode. Let's hope that the compiler
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* will at least optimize out the @x computation. */
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}
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#else
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;
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#endif
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#endif /* HAVE_VARIADIC_MACROS */
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/* To make recovery path possible (assertion failed may not mean end of the
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* world, the execution goes on if we're outside of CONFIG_DEBUG and CONFIG_FASTMEM),
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* @assert_failed is set to true if the last assert() failed, otherwise it's
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* zero. Note that you must never change assert_failed value, sorry guys.
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*
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* You should never test assert_failed directly anyway. Use if_assert_failed
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* instead, it will attempt to hint compiler to optimize out the recovery path
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* if we're CONFIG_FASTMEM. So it should go like:
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*
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* assertm(1 == 1, "The world's gonna blow up!");
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* if_assert_failed { schedule_time_machine(); return; } */
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/* In-depth explanation: this restriction is here because in the CONFIG_FASTMEM mode,
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* assert_failed is initially initialized to zero and then not ever touched
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* anymore. So if you change it to non-zero failure, your all further recovery
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* paths will get hit (and since developers usually don't test CONFIG_FASTMEM mode
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* extensively...). So better don't mess with it, even if you would do that
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* with awareness of this fact. We don't want to iterate over tens of spots all
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2006-01-14 02:24:11 -05:00
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* over the code when we change one detail regarding CONFIG_FASTMEM operation.
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2005-09-15 09:58:31 -04:00
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*
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* This is not that actual after introduction of if_assert_failed, but it's
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* a safe recommendation anyway, so... ;-) */
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extern int assert_failed;
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#undef if_assert_failed
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#ifdef CONFIG_FASTMEM
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#define if_assert_failed if (0) /* This should be optimalized away. */
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#else
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#define if_assert_failed if (assert_failed && !(assert_failed = 0))
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#endif
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/* This will print some fancy message, version string and possibly do something
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* else useful. Then, it will dump core. */
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#ifdef CONFIG_DEBUG
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void force_dump(void);
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#endif
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/* This function does nothing, except making compiler not to optimize certains
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* spots of code --- this is useful when that particular optimization is buggy.
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* So we are just workarounding buggy compilers. */
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/* This function should be always used only in context of compiler version
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* specific macros. */
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void do_not_optimize_here(void *x);
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#if defined(__GNUC__) && __GNUC__ == 2 && __GNUC_MINOR__ <= 7
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#define do_not_optimize_here_gcc_2_7(x) do_not_optimize_here(x)
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#else
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#define do_not_optimize_here_gcc_2_7(x)
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#endif
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#if defined(__GNUC__) && __GNUC__ == 3
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#define do_not_optimize_here_gcc_3_x(x) do_not_optimize_here(x)
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#else
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#define do_not_optimize_here_gcc_3_x(x)
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#endif
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#if defined(__GNUC__) && __GNUC__ == 3 && __GNUC_MINOR__ == 3
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#define do_not_optimize_here_gcc_3_3(x) do_not_optimize_here(x)
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#else
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#define do_not_optimize_here_gcc_3_3(x)
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#endif
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/* This function dumps backtrace (or whatever similiar it founds on the stack)
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* nicely formatted and with symbols resolved to @f. When @trouble is set, it
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* tells it to be extremely careful and not use dynamic memory allocation
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* functions etc (useful in SIGSEGV handler etc). */
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/* Note that this function just calls system-specific backend provided by the
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* libc, so it is available only on some systems. CONFIG_BACKTRACE is defined
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* if it is available on yours. */
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#ifdef CONFIG_BACKTRACE
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#include <stdio.h>
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void dump_backtrace(FILE *f, int trouble);
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#endif
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/* This is needed for providing info about features when dumping core */
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extern unsigned char full_static_version[1024];
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#endif
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