fish-shell/common.h

/** \file common.h
	Prototypes for various functions, mostly string utilities, that are used by most parts of fish.
*/

#ifndef FISH_COMMON_H
/**
   Header guard
*/
#define FISH_COMMON_H

#include <stdlib.h>
#include <stdio.h>
#include <wchar.h>
#include <termios.h>
#include <string>
#include <sstream>
#include <vector>
#include <pthread.h>
#include <string.h>

#include <errno.h>
#include <assert.h>
#include "util.h"

/**
   Avoid writing the type name twice in a common "static_cast-initialization".
   Caveat: This doesn't work with type names containing commas!
*/
#define CAST_INIT(type, dst, src) type dst = static_cast<type >(src)

class completion_t;

/* Common string type */
typedef std::wstring wcstring;
typedef std::vector<wcstring> wcstring_list_t;

/**
   Maximum number of bytes used by a single utf-8 character
*/
#define MAX_UTF8_BYTES 6

/**
   This is in the unicode private use area.
*/
#define ENCODE_DIRECT_BASE 0xf100

/**
  Highest legal ascii value
*/
#define ASCII_MAX 127u

/**
  Highest legal 16-bit unicode value
*/
#define UCS2_MAX 0xffffu

/**
  Highest legal byte value
*/
#define BYTE_MAX 0xffu

/* Flags for unescape_string functions */
enum
{
    /* Default behavior */
    UNESCAPE_DEFAULT = 0,

    /* Escape special fish syntax characters like the semicolon */
    UNESCAPE_SPECIAL = 1 << 0,

    /* Allow incomplete escape sequences */
    UNESCAPE_INCOMPLETE = 1 << 1
};
typedef unsigned int unescape_flags_t;

/* Flags for the escape() and escape_string() functions */
enum
{
    /** Escape all characters, including magic characters like the semicolon */
    ESCAPE_ALL = 1 << 0,

    /** Do not try to use 'simplified' quoted escapes, and do not use empty quotes as the empty string */
    ESCAPE_NO_QUOTED = 1 << 1,

    /** Do not escape tildes */
    ESCAPE_NO_TILDE = 1 << 2
};
typedef unsigned int escape_flags_t;

/* Directions */
enum selection_direction_t
{
    /* visual directions */
    direction_north,
    direction_east,
    direction_south,
    direction_west,

    /* logical directions */
    direction_next,
    direction_prev,

    /* special value that means deselect */
    direction_deselect
};

inline bool selection_direction_is_cardinal(selection_direction_t dir)
{
    switch (dir)
    {
        case direction_north:
        case direction_east:
        case direction_south:
        case direction_west:
            return true;
        default:
            return false;
    }
}

/**
 Helper macro for errors
 */
#define VOMIT_ON_FAILURE(a) do { if (0 != (a)) { VOMIT_ABORT(errno, #a); } } while (0)
#define VOMIT_ON_FAILURE_NO_ERRNO(a) do { int err = (a); if (0 != err) { VOMIT_ABORT(err, #a); } } while (0)
#define VOMIT_ABORT(err, str) do { int code = (err); fprintf(stderr, "%s failed on line %d in file %s: %d (%s)\n", str, __LINE__, __FILE__, code, strerror(code)); abort(); } while(0)

/** Exits without invoking destructors (via _exit), useful for code after fork. */
void exit_without_destructors(int code) __attribute__((noreturn));

/**
	Save the shell mode on startup so we can restore them on exit
*/
extern struct termios shell_modes;

/**
   The character to use where the text has been truncated. Is an
   ellipsis on unicode system and a $ on other systems.
*/
extern wchar_t ellipsis_char;

/* Character representing an omitted newline at the end of text */
extern wchar_t omitted_newline_char;

/**
   The verbosity level of fish. If a call to debug has a severity
   level higher than \c debug_level, it will not be printed.
*/
extern int debug_level;

/**
   Profiling flag. True if commands should be profiled.
*/
extern bool g_profiling_active;

/**
   Name of the current program. Should be set at startup. Used by the
   debug function.
*/
extern const wchar_t *program_name;

/* Variants of read() and write() that ignores return values, defeating a warning */
void read_ignore(int fd, void *buff, size_t count);
void write_ignore(int fd, const void *buff, size_t count);

/**
   This macro is used to check that an input argument is not null. It
   is a bit lika a non-fatal form of assert. Instead of exit-ing on
   failure, the current function is ended at once. The second
   parameter is the return value of the current function on failure.
*/
#define CHECK( arg, retval )											\
	if (!(arg)) 														\
	{																	\
		debug( 0,														\
			   "function %s called with null value for argument %s. ",  \
			   __func__,												\
			   #arg );													\
		bugreport();													\
		show_stackframe();												\
		return retval;													\
	}

/**
   Pause for input, then exit the program. If supported, print a backtrace first.
*/
#define FATAL_EXIT()											\
	{															\
        char exit_read_buff;                                    \
        show_stackframe();										\
        read_ignore( 0, &exit_read_buff, 1 );                   \
        exit_without_destructors( 1 );                          \
	}															\
 

/**
   Exit program at once, leaving an error message about running out of memory.
*/
#define DIE_MEM()														\
	{																	\
		fwprintf( stderr,												\
				  L"fish: Out of memory on line %ld of file %s, shutting down fish\n", \
				  (long)__LINE__,												\
				  __FILE__ );											\
		FATAL_EXIT();														\
	}

/**
   Check if signals are blocked. If so, print an error message and
   return from the function performing this check.
*/
#define CHECK_BLOCK(retval) 											\
	if (signal_is_blocked()) 											\
	{																	\
		debug( 0,														\
			    "function %s called while blocking signals. ",  		\
			   __func__);												\
		bugreport();													\
		show_stackframe();												\
		return retval;													\
	}

/**
   Shorthand for wgettext call
*/
#define _(wstr) wgettext(wstr)

/**
   Noop, used to tell xgettext that a string should be translated,
   even though it is not directly sent to wgettext.
*/
#define N_(wstr) wstr

/**
   Check if the specified string element is a part of the specified string list
 */
#define contains( str, ... ) contains_internal( str, 0, __VA_ARGS__, NULL )

/**
  Print a stack trace to stderr
*/
void show_stackframe();


/**
   Read a line from the stream f into the string. Returns
   the number of bytes read or -1 on failure.

   If the carriage return character is encountered, it is
   ignored. fgetws() considers the line to end if reading the file
   results in either a newline (L'\n') character, the null (L'\\0')
   character or the end of file (WEOF) character.
*/
int fgetws2(wcstring *s, FILE *f);


/**
 Returns a  wide character string equivalent of the
 specified multibyte character string

 This function encodes illegal character sequences in a reversible
 way using the private use area.
 */
wcstring str2wcstring(const char *in);
wcstring str2wcstring(const char *in, size_t len);
wcstring str2wcstring(const std::string &in);

/**
   Returns a newly allocated multibyte character string equivalent of
   the specified wide character string

   This function decodes illegal character sequences in a reversible
   way using the private use area.
*/
char *wcs2str(const wchar_t *in);
char *wcs2str(const wcstring &in);
std::string wcs2string(const wcstring &input);

/** Test if a string prefixes another. Returns true if a is a prefix of b */
bool string_prefixes_string(const wcstring &proposed_prefix, const wcstring &value);
bool string_prefixes_string(const wchar_t *proposed_prefix, const wcstring &value);

/** Test if a string is a suffix of another */
bool string_suffixes_string(const wcstring &proposed_suffix, const wcstring &value);
bool string_suffixes_string(const wchar_t *proposed_suffix, const wcstring &value);

/** Test if a string prefixes another without regard to case. Returns true if a is a prefix of b */
bool string_prefixes_string_case_insensitive(const wcstring &proposed_prefix, const wcstring &value);

enum fuzzy_match_type_t
{
    /* We match the string exactly: FOOBAR matches FOOBAR */
    fuzzy_match_exact = 0,

    /* We match a prefix of the string: FO matches FOOBAR */
    fuzzy_match_prefix,

    /* We match the string exactly, but in a case insensitive way: foobar matches FOOBAR */
    fuzzy_match_case_insensitive,

    /* We match a prefix of the string, in a case insensitive way: foo matches FOOBAR */
    fuzzy_match_prefix_case_insensitive,

    /* We match a substring of the string: OOBA matches FOOBAR */
    fuzzy_match_substring,

    /* A subsequence match with insertions only: FBR matches FOOBAR */
    fuzzy_match_subsequence_insertions_only,

    /* We don't match the string */
    fuzzy_match_none
};

/* Indicates where a match type requires replacing the entire token */
static inline bool match_type_requires_full_replacement(fuzzy_match_type_t t)
{
    switch (t)
    {
        case fuzzy_match_exact:
        case fuzzy_match_prefix:
            return false;
        default:
            return true;
    }
}

/* Indicates where a match shares a prefix with the string it matches */
static inline bool match_type_shares_prefix(fuzzy_match_type_t t)
{
    switch (t)
    {
        case fuzzy_match_exact:
        case fuzzy_match_prefix:
        case fuzzy_match_case_insensitive:
        case fuzzy_match_prefix_case_insensitive:
            return true;
        default:
            return false;
    }
}

/** Test if string is a fuzzy match to another */
struct string_fuzzy_match_t
{
    enum fuzzy_match_type_t type;

    /* Strength of the match. The value depends on the type. Lower is stronger. */
    size_t match_distance_first;
    size_t match_distance_second;

    /* Constructor */
    string_fuzzy_match_t(enum fuzzy_match_type_t t, size_t distance_first = 0, size_t distance_second = 0);

    /* Return -1, 0, 1 if this match is (respectively) better than, equal to, or worse than rhs */
    int compare(const string_fuzzy_match_t &rhs) const;
};

/* Compute a fuzzy match for a string. If maximum_match is not fuzzy_match_none, limit the type to matches at or below that type. */
string_fuzzy_match_t string_fuzzy_match_string(const wcstring &string, const wcstring &match_against, fuzzy_match_type_t limit_type = fuzzy_match_none);


/** Test if a list contains a string using a linear search. */
bool list_contains_string(const wcstring_list_t &list, const wcstring &str);


void assert_is_main_thread(const char *who);
#define ASSERT_IS_MAIN_THREAD_TRAMPOLINE(x) assert_is_main_thread(x)
#define ASSERT_IS_MAIN_THREAD() ASSERT_IS_MAIN_THREAD_TRAMPOLINE(__FUNCTION__)

void assert_is_background_thread(const char *who);
#define ASSERT_IS_BACKGROUND_THREAD_TRAMPOLINE(x) assert_is_background_thread(x)
#define ASSERT_IS_BACKGROUND_THREAD() ASSERT_IS_BACKGROUND_THREAD_TRAMPOLINE(__FUNCTION__)

/* Useful macro for asserting that a lock is locked. This doesn't check whether this thread locked it, which it would be nice if it did, but here it is anyways. */
void assert_is_locked(void *mutex, const char *who, const char *caller);
#define ASSERT_IS_LOCKED(x) assert_is_locked((void *)(&x), #x, __FUNCTION__)

/** Format the specified size (in bytes, kilobytes, etc.) into the specified stringbuffer. */
wcstring format_size(long long sz);

/** Version of format_size that does not allocate memory. */
void format_size_safe(char buff[128], unsigned long long sz);

/** Our crappier versions of debug which is guaranteed to not allocate any memory, or do anything other than call write(). This is useful after a call to fork() with threads. */
void debug_safe(int level, const char *msg, const char *param1 = NULL, const char *param2 = NULL, const char *param3 = NULL, const char *param4 = NULL, const char *param5 = NULL, const char *param6 = NULL, const char *param7 = NULL, const char *param8 = NULL, const char *param9 = NULL, const char *param10 = NULL, const char *param11 = NULL, const char *param12 = NULL);

/** Writes out a long safely */
void format_long_safe(char buff[64], long val);
void format_long_safe(wchar_t buff[64], long val);


template<typename T>
T from_string(const wcstring &x)
{
    T result;
    std::wstringstream stream(x);
    stream >> result;
    return result;
}

template<typename T>
T from_string(const std::string &x)
{
    T result = T();
    std::stringstream stream(x);
    stream >> result;
    return result;
}

template<typename T>
wcstring to_string(const T &x)
{
    std::wstringstream stream;
    stream << x;
    return stream.str();
}

/* wstringstream is a huge memory pig. Let's provide some specializations where we can. */
template<>
inline wcstring to_string(const long &x)
{
    wchar_t buff[128];
    format_long_safe(buff, x);
    return wcstring(buff);
}

template<>
inline bool from_string(const std::string &x)
{
    return ! x.empty() && strchr("YTyt1", x.at(0));
}

template<>
inline bool from_string(const wcstring &x)
{
    return ! x.empty() && wcschr(L"YTyt1", x.at(0));
}

template<>
inline wcstring to_string(const int &x)
{
    return to_string(static_cast<long>(x));
}

wchar_t **make_null_terminated_array(const wcstring_list_t &lst);
char **make_null_terminated_array(const std::vector<std::string> &lst);

/* Helper class for managing a null-terminated array of null-terminated strings (of some char type) */
template <typename CharType_t>
class null_terminated_array_t
{
    CharType_t **array;

    /* No assignment or copying */
    void operator=(null_terminated_array_t rhs);
    null_terminated_array_t(const null_terminated_array_t &);

    typedef std::vector<std::basic_string<CharType_t> > string_list_t;

    size_t size() const
    {
        size_t len = 0;
        if (array != NULL)
        {
            while (array[len] != NULL)
            {
                len++;
            }
        }
        return len;
    }

    void free(void)
    {
        ::free((void *)array);
        array = NULL;
    }

public:
    null_terminated_array_t() : array(NULL) { }
    null_terminated_array_t(const string_list_t &argv) : array(make_null_terminated_array(argv))
    {
    }

    ~null_terminated_array_t()
    {
        this->free();
    }

    void set(const string_list_t &argv)
    {
        this->free();
        this->array = make_null_terminated_array(argv);
    }

    const CharType_t * const *get() const
    {
        return array;
    }

    void clear()
    {
        this->free();
    }
};

/* Helper function to convert from a null_terminated_array_t<wchar_t> to a null_terminated_array_t<char_t> */
void convert_wide_array_to_narrow(const null_terminated_array_t<wchar_t> &arr, null_terminated_array_t<char> *output);

/* Helper class to cache a narrow version of a wcstring in a malloc'd buffer, so that we can read it after fork() */
class narrow_string_rep_t
{
private:
    const char *str;

    /* No copying */
    narrow_string_rep_t &operator=(const narrow_string_rep_t &);
    narrow_string_rep_t(const narrow_string_rep_t &x);

public:
    ~narrow_string_rep_t()
    {
        free((void *)str);
    }

    narrow_string_rep_t() : str(NULL) {}

    void set(const wcstring &s)
    {
        free((void *)str);
        str = wcs2str(s.c_str());
    }

    const char *get() const
    {
        return str;
    }
};

bool is_forked_child();


class mutex_lock_t
{
    public:
    pthread_mutex_t mutex;
    mutex_lock_t()
    {
        VOMIT_ON_FAILURE_NO_ERRNO(pthread_mutex_init(&mutex, NULL));
    }
    
    ~mutex_lock_t()
    {
        VOMIT_ON_FAILURE_NO_ERRNO(pthread_mutex_destroy(&mutex));
    }
};

/* Basic scoped lock class */
class scoped_lock
{
    pthread_mutex_t *lock_obj;
    bool locked;

    /* No copying */
    scoped_lock &operator=(const scoped_lock &);
    scoped_lock(const scoped_lock &);

public:
    void lock(void);
    void unlock(void);
    scoped_lock(pthread_mutex_t &mutex);
    scoped_lock(mutex_lock_t &lock);
    ~scoped_lock();
};

class rwlock_t
{
public:
    pthread_rwlock_t rwlock;
    rwlock_t()
    {
        VOMIT_ON_FAILURE_NO_ERRNO(pthread_rwlock_init(&rwlock, NULL));
    }

    ~rwlock_t()
    {
        VOMIT_ON_FAILURE_NO_ERRNO(pthread_rwlock_destroy(&rwlock));
    }
};

/*
   Scoped lock class for rwlocks
 */
class scoped_rwlock
{
    pthread_rwlock_t *rwlock_obj;
    bool locked;
    bool locked_shared;

    /* No copying */
    scoped_rwlock &operator=(const scoped_lock &);
    scoped_rwlock(const scoped_lock &);

public:
    void lock(void);
    void unlock(void);
    void lock_shared(void);
    void unlock_shared(void);
    /*
       upgrade shared lock to exclusive.
       equivalent to `lock.unlock_shared(); lock.lock();`
     */
    void upgrade(void);
    scoped_rwlock(pthread_rwlock_t &rwlock, bool shared = false);
    scoped_rwlock(rwlock_t &rwlock, bool shared = false);
    ~scoped_rwlock();
};

/**
   A scoped manager to save the current value of some variable, and optionally
   set it to a new value. On destruction it restores the variable to its old
   value.

   This can be handy when there are multiple code paths to exit a block.
*/
template <typename T>
class scoped_push
{
    T * const ref;
    T saved_value;
    bool restored;

public:
    scoped_push(T *r): ref(r), saved_value(*r), restored(false)
    {
    }

    scoped_push(T *r, const T &new_value) : ref(r), saved_value(*r), restored(false)
    {
        *r = new_value;
    }

    ~scoped_push()
    {
        restore();
    }

    void restore()
    {
        if (!restored)
        {
            std::swap(*ref, saved_value);
            restored = true;
        }
    }
};


/* Wrapper around wcstok */
class wcstokenizer
{
    wchar_t *buffer, *str, *state;
    const wcstring sep;

    /* No copying */
    wcstokenizer &operator=(const wcstokenizer &);
    wcstokenizer(const wcstokenizer &);

public:
    wcstokenizer(const wcstring &s, const wcstring &separator);
    bool next(wcstring &result);
    ~wcstokenizer();
};

/**
 Appends a path component, with a / if necessary
 */
void append_path_component(wcstring &path, const wcstring &component);

wcstring format_string(const wchar_t *format, ...);
wcstring vformat_string(const wchar_t *format, va_list va_orig);
void append_format(wcstring &str, const wchar_t *format, ...);
void append_formatv(wcstring &str, const wchar_t *format, va_list ap);

/**
   Returns a newly allocated wide character string array equivalent of
   the specified multibyte character string array
*/
char **wcsv2strv(const wchar_t * const *in);

/**
   Test if the given string is a valid variable name.

   \return null if this is a valid name, and a pointer to the first invalid character otherwise
*/

const wchar_t *wcsvarname(const wchar_t *str);


/**
   Test if the given string is a valid function name.

   \return null if this is a valid name, and a pointer to the first invalid character otherwise
*/

const wchar_t *wcsfuncname(const wchar_t *str);

/**
   Test if the given string is valid in a variable name

   \return true if this is a valid name, false otherwise
*/

bool wcsvarchr(wchar_t chr);


/**
   A wcswidth workalike. Fish uses this since the regular wcswidth seems flaky.
*/
int my_wcswidth(const wchar_t *c);

/**
   This functions returns the end of the quoted substring beginning at
   \c in. The type of quoting character is detemrined by examining \c
   in. Returns 0 on error.

   \param in the position of the opening quote
*/
wchar_t *quote_end(const wchar_t *in);

/**
   A call to this function will reset the error counter. Some
   functions print out non-critical error messages. These should check
   the error_count before, and skip printing the message if
   MAX_ERROR_COUNT messages have been printed. The error_reset()
   should be called after each interactive command executes, to allow
   new messages to be printed.
*/
void error_reset();

/**
   This function behaves exactly like a wide character equivalent of
   the C function setlocale, except that it will also try to detect if
   the user is using a Unicode character set, and if so, use the
   unicode ellipsis character as ellipsis, instead of '$'.
*/
wcstring wsetlocale(int category, const wchar_t *locale);

/**
   Checks if \c needle is included in the list of strings specified. A warning is printed if needle is zero.

   \param needle the string to search for in the list

   \return zero if needle is not found, of if needle is null, non-zero otherwise
*/
__sentinel bool contains_internal(const wchar_t *needle, int vararg_handle, ...);
__sentinel bool contains_internal(const wcstring &needle, int vararg_handle, ...);

/**
   Call read while blocking the SIGCHLD signal. Should only be called
   if you _know_ there is data available for reading, or the program
   will hang until there is data.
*/
long read_blocked(int fd, void *buf, size_t count);

/**
   Loop a write request while failure is non-critical. Return -1 and set errno
   in case of critical error.
 */
ssize_t write_loop(int fd, const char *buff, size_t count);

/**
   Loop a read request while failure is non-critical. Return -1 and set errno
   in case of critical error.
 */
ssize_t read_loop(int fd, void *buff, size_t count);


/**
   Issue a debug message with printf-style string formating and
   automatic line breaking. The string will begin with the string \c
   program_name, followed by a colon and a whitespace.

   Because debug is often called to tell the user about an error,
   before using wperror to give a specific error message, debug will
   never ever modify the value of errno.

   \param level the priority of the message. Lower number means higher priority. Messages with a priority_number higher than \c debug_level will be ignored..
   \param msg the message format string.

   Example:

   <code>debug( 1, L"Pi = %.3f", M_PI );</code>

   will print the string 'fish: Pi = 3.141', given that debug_level is 1 or higher, and that program_name is 'fish'.
*/
void debug(int level, const char *msg, ...);
void debug(int level, const wchar_t *msg, ...);

/** Writes a string to stderr, followed by a newline */
void print_stderr(const wcstring &str);

/**
   Replace special characters with backslash escape sequences. Newline is
   replaced with \n, etc.

   \param in The string to be escaped
   \param escape_all Whether all characters wich hold special meaning in fish (Pipe, semicolon, etc,) should be escaped, or only unprintable characters
   \return The escaped string, or 0 if there is not enough memory
*/

wchar_t *escape(const wchar_t *in, escape_flags_t flags);
wcstring escape_string(const wcstring &in, escape_flags_t flags);

/**
   Expand backslashed escapes and substitute them with their unescaped
   counterparts. Also optionally change the wildcards, the tilde
   character and a few more into constants which are defined in a
   private use area of Unicode. This assumes wchar_t is a unicode
   character set.
*/

/** Unescapes a string in-place. A true result indicates the string was unescaped, a false result indicates the string was unmodified. */
bool unescape_string_in_place(wcstring *str, unescape_flags_t escape_special);

/** Unescapes a string, returning the unescaped value by reference. On failure, the output is set to an empty string. */
bool unescape_string(const wchar_t *input, wcstring *output, unescape_flags_t escape_special);
bool unescape_string(const wcstring &input, wcstring *output, unescape_flags_t escape_special);


/**
    Returns the width of the terminal window, so that not all
    functions that use these values continually have to keep track of
    it separately.

    Only works if common_handle_winch is registered to handle winch signals.
*/
int common_get_width();
/**
   Returns the height of the terminal window, so that not all
   functions that use these values continually have to keep track of
   it separatly.

   Only works if common_handle_winch is registered to handle winch signals.
*/
int common_get_height();

/**
  Handle a window change event by looking up the new window size and
  saving it in an internal variable used by common_get_wisth and
  common_get_height().
*/
void common_handle_winch(int signal);

/**
   Write paragraph of output to the specified stringbuffer, and redo
   the linebreaks to fit the current screen.
*/
void write_screen(const wcstring &msg, wcstring &buff);

/**
   Tokenize the specified string into the specified wcstring_list_t.
   \param val the input string. The contents of this string is not changed.
   \param out the list in which to place the elements.
*/
void tokenize_variable_array(const wcstring &val, wcstring_list_t &out);

/**
   Make sure the specified direcotry exists. If needed, try to create
   it and any currently not existing parent directories..

   \return 0 if, at the time of function return the directory exists, -1 otherwise.
*/
int create_directory(const wcstring &d);

/**
   Print a short message about how to file a bug report to stderr
*/
void bugreport();

/**
   Return the number of seconds from the UNIX epoch, with subsecond
   precision. This function uses the gettimeofday function, and will
   have the same precision as that function.

   If an error occurs, NAN is returned.
 */
double timef();

/**
	Call the following function early in main to set the main thread.
    This is our replacement for pthread_main_np().
 */
void set_main_thread();
bool is_main_thread();

/** Configures thread assertions for testing */
void configure_thread_assertions_for_testing();

/** Set up a guard to complain if we try to do certain things (like take a lock) after calling fork */
void setup_fork_guards(void);

/** Save the value of tcgetpgrp so we can restore it on exit */
void save_term_foreground_process_group(void);
void restore_term_foreground_process_group(void);

/** Return whether we are the child of a fork */
bool is_forked_child(void);
void assert_is_not_forked_child(const char *who);
#define ASSERT_IS_NOT_FORKED_CHILD_TRAMPOLINE(x) assert_is_not_forked_child(x)
#define ASSERT_IS_NOT_FORKED_CHILD() ASSERT_IS_NOT_FORKED_CHILD_TRAMPOLINE(__FUNCTION__)

/** Macro to help suppress potentially unused variable warnings */
#define USE(var) (void)(var)

extern "C" {
    __attribute__((noinline)) void debug_thread_error(void);
}


#endif