manuals/4.3/misc_8h_source.html

 /*

  *  Hamlib Interface - toolbox header

  *  Copyright (c) 2000-2004 by Stephane Fillod

  *

  *

  *   This library is free software; you can redistribute it and/or

  *   modify it under the terms of the GNU Lesser General Public

  *   License as published by the Free Software Foundation; either

  *   version 2.1 of the License, or (at your option) any later version.

  *

  *   This library is distributed in the hope that it will be useful,

  *   but WITHOUT ANY WARRANTY; without even the implied warranty of

  *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  *   Lesser General Public License for more details.

  *

  *   You should have received a copy of the GNU Lesser General Public

  *   License along with this library; if not, write to the Free Software

  *   Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA

  *

  */


 #ifndef _MISC_H

 #define _MISC_H 1


 #include <hamlib/rig.h>


 /*

  * Careful!! These macros are NOT reentrant!

  * ie. they may not be executed atomically,

  * thus not ensure mutual exclusion.

  * Fix it when making Hamlib reentrant!  --SF

  */

 #define Hold_Decode(rig) {(rig)->state.hold_decode = 1;}

 #define Unhold_Decode(rig) {(rig)->state.hold_decode = 0;}


 __BEGIN_DECLS


 /*

  * Do a hex dump of the unsigned char array.

  */


 void dump_hex(const unsigned char ptr[], size_t size);


 /*

  * BCD conversion routines.

  *

  * to_bcd() converts a long long int to a little endian BCD array,

  *  and return a pointer to this array.

  *

  * from_bcd() converts a little endian BCD array to long long int

  *  representation, and return it.

  *

  * bcd_len is the number of digits in the BCD array.

  */

 extern HAMLIB_EXPORT(unsigned char *) to_bcd(unsigned char bcd_data[],

                                              unsigned long long freq,

                                              unsigned bcd_len);


 extern HAMLIB_EXPORT(unsigned long long) from_bcd(const unsigned char

                                                   bcd_data[],

                                                   unsigned bcd_len);


 /*

  * same as to_bcd() and from_bcd(), but in Big Endian mode

  */

 extern HAMLIB_EXPORT(unsigned char *) to_bcd_be(unsigned char bcd_data[],

                                                 unsigned long long freq,

                                                 unsigned bcd_len);


 extern HAMLIB_EXPORT(unsigned long long) from_bcd_be(const unsigned char

                                                      bcd_data[],

                                                      unsigned bcd_len);


 extern HAMLIB_EXPORT(double) morse_code_dot_to_millis(int wpm);

 extern HAMLIB_EXPORT(int) dot10ths_to_millis(int dot10ths, int wpm);

 extern HAMLIB_EXPORT(int) millis_to_dot10ths(int millis, int wpm);


 extern HAMLIB_EXPORT(int) sprintf_freq(char *str, int len, freq_t);


 /* flag that determines if AI mode should be restored on exit on

    applicable rigs - See rig_no_restore_ai() */

 extern int no_restore_ai;


 /* check if it's any of CR or LF */

 #define isreturn(c) ((c) == 10 || (c) == 13)


 /* needs config.h included beforehand in .c file */

 #ifdef HAVE_INTTYPES_H

 #  include <inttypes.h>

 #endif


 #ifdef HAVE_SYS_TIME_H

 #  include <sys/time.h>

 #endif


 extern HAMLIB_EXPORT(int) rig_check_cache_timeout(const struct timeval *tv,

                                                   int timeout);


 extern HAMLIB_EXPORT(void) rig_force_cache_timeout(struct timeval *tv);


 extern HAMLIB_EXPORT(setting_t) rig_idx2setting(int i);


 extern HAMLIB_EXPORT(int) hl_usleep(rig_useconds_t usec);


 extern HAMLIB_EXPORT(double) elapsed_ms(struct timespec *start, int start_flag);


 extern HAMLIB_EXPORT(vfo_t) vfo_fixup(RIG *rig, vfo_t vfo, split_t split);


 extern HAMLIB_EXPORT(int) parse_hoststr(char *host, char hoststr[256], char port[6]);


 extern HAMLIB_EXPORT(uint32_t) CRC32_function(uint8_t *buf, uint32_t len);


 extern char *date_strget(char *buf, int buflen);


 #ifdef PRId64

 #  define PRIll PRId64

 #  define PRXll PRIx64

 #else

 #  ifdef FBSD4

 #    define PRIll "qd"

 #    define PRXll "qx"

 #  else

 #    define PRIll "lld"

 #    define PRXll "lld"

 #  endif

 #endif


 #ifdef SCNd64

 #  define SCNll SCNd64

 #  define SCNXll SCNx64

 #else

 #  ifdef FBSD4

 #    define SCNll "qd"

 #    define SCNXll "qx"

 #  else

 #    define SCNll "lld"

 #    define SCNXll "llx"

 #  endif

 #endif


 #define __FILENAME__ (strrchr(__FILE__, '/') ? strrchr(__FILE__, '/') + 1 : __FILE__)

 void errmsg(int err, char *s, const char *func, const char *file, int line);

 #define ERRMSG(err, s) errmsg(err,  s, __func__, __FILENAME__, __LINE__)

 #define ENTERFUNC rig_debug(RIG_DEBUG_VERBOSE, "%s(%d):%s entered\n", __FILENAME__, __LINE__, __func__)

 // we need to refer to rc just once as it

 // could be a function call

 #define RETURNFUNC(rc) do { \

                         int rctmp = rc; \

                         rig_debug(RIG_DEBUG_VERBOSE, "%s(%d):%s return(%ld)\n", __FILENAME__, __LINE__, __func__, (long int) (rctmp)); \

                         return (rctmp); \

                        } while(0)


 #define CACHE_RESET {\

     elapsed_ms(&rig->state.cache.time_freqMainA, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_freqMainB, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_freqSubA, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_freqSubB, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_vfo, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_modeMainA, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_modeMainB, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_modeMainC, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_modeSubA, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_modeSubB, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_modeSubC, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_widthMainA, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_widthMainB, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_widthMainC, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_widthSubA, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_widthSubB, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_widthSubC, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_ptt, HAMLIB_ELAPSED_INVALIDATE);\

     elapsed_ms(&rig->state.cache.time_split, HAMLIB_ELAPSED_INVALIDATE);\

      }


 __END_DECLS


 #endif /* _MISC_H */

millis_to_dot10ths
int millis_to_dot10ths(int millis, int wpm)
Convert duration in milliseconds to tenths of morse code dots at the given speed.
Definition: misc.c:329

rig_check_cache_timeout
int rig_check_cache_timeout(const struct timeval *tv, int timeout)
Helper for checking cache timeout.
Definition: misc.c:1581

to_bcd
unsigned char * to_bcd(unsigned char bcd_data[], unsigned long long freq, unsigned bcd_len)
Convert from binary to 4-bit BCD digits, little-endian.
Definition: misc.c:139

sprintf_freq
int sprintf_freq(char *str, int len, freq_t)
Pretty print a frequency.
Definition: misc.c:350

rig_force_cache_timeout
void rig_force_cache_timeout(struct timeval *tv)
Helper for forcing cache timeout next call.
Definition: misc.c:1635

rig_idx2setting
setting_t rig_idx2setting(int i)
Definition: misc.c:704

dump_hex
__BEGIN_DECLS void dump_hex(const unsigned char ptr[], size_t size)
Do a hex dump of the unsigned char array.
Definition: debug.c:90

from_bcd
unsigned long long from_bcd(const unsigned char bcd_data[], unsigned bcd_len)
Convert BCD digits, little-endian, to a long long (e.g. frequency in Hz)
Definition: misc.c:186

from_bcd_be
unsigned long long from_bcd_be(const unsigned char bcd_data[], unsigned bcd_len)
Convert 4-bit BCD digits to binary, big-endian.
Definition: misc.c:266

to_bcd_be
unsigned char * to_bcd_be(unsigned char bcd_data[], unsigned long long freq, unsigned bcd_len)
Convert from binary to 4-bit BCD digits, big-endian.
Definition: misc.c:223

morse_code_dot_to_millis
double morse_code_dot_to_millis(int wpm)
Convert duration of one morse code dot (element) to milliseconds at the given speed.
Definition: misc.c:303

dot10ths_to_millis
int dot10ths_to_millis(int dot10ths, int wpm)
Convert duration of tenths of morse code dots to milliseconds at the given speed.
Definition: misc.c:316

vfo_t
unsigned int vfo_t
VFO definition.
Definition: rig.h:427

split_t
split_t
Split mode.
Definition: rig.h:356

hl_usleep
int hl_usleep(rig_useconds_t usec)
provide sleep and usleep replacements
Definition: sleep.c:53

setting_t
uint64_t setting_t
Setting.
Definition: rig.h:1032

freq_t
double freq_t
Frequency type,.
Definition: rig.h:367

rig.h
Hamlib rig data structures.

s_rig
The Rig structure.
Definition: rig.h:2445