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/* $Id: dump_config.c,v 5.16 2005/02/07 15:44:08 lirc Exp $ */
/****************************************************************************
** dump_config.c ***********************************************************
****************************************************************************
*
* dump_config.c - dumps data structures into file
*
* Copyright (C) 1998 Pablo d'Angelo <pablo@ag-trek.allgaeu.org>
*
*/
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#ifdef TIME_WITH_SYS_TIME
# include <sys/time.h>
# include <time.h>
#else
# ifdef HAVE_SYS_TIME_H
# include <sys/time.h>
# else
# include <time.h>
# endif
#endif
#include "dump_config.h"
#include "config_file.h"
void fprint_comment(FILE *f,struct ir_remote *rem)
{
time_t timet;
struct tm *tmp;
timet=time(NULL);
tmp=localtime(&timet);
fprintf(f,
"#\n"
"# this config file was automatically generated\n"
"# using lirc-%s(%s) on %s"
"#\n"
"# contributed by \n"
"#\n"
"# brand: %s\n"
"# model no. of remote control: \n"
"# devices being controlled by this remote:\n"
"#\n\n",VERSION,LIRC_DRIVER,asctime(tmp),
rem->name);
}
void fprint_flags(FILE *f, int flags)
{
int i;
int begin=0;
for(i=0;all_flags[i].flag;i++)
{
if(flags&all_flags[i].flag)
{
flags&=(~all_flags[i].flag);
if(begin==0) fprintf(f, " flags ");
else if(begin==1) fprintf(f,"|");
fprintf(f,"%s",all_flags[i].name);
begin=1;
}
}
if(begin==1) fprintf(f,"\n");
}
void fprint_remotes(FILE *f, struct ir_remote *all){
while(all)
{
fprint_remote(f, all);
fprintf(f, "\n\n");
all=all->next;
}
}
void fprint_remote_head(FILE *f, struct ir_remote *rem)
{
fprintf(f, "begin remote\n\n");
if(!is_raw(rem)){
fprintf(f, " name %s\n",rem->name);
fprintf(f, " bits %5d\n",rem->bits);
fprint_flags(f,rem->flags);
fprintf(f, " eps %5d\n",rem->eps);
fprintf(f, " aeps %5d\n\n",rem->aeps);
if(has_header(rem))
{
fprintf(f, " header %5lu %5lu\n",
(unsigned long) rem->phead,
(unsigned long) rem->shead);
}
if(rem->pthree!=0 || rem->sthree!=0)
fprintf(f, " three %5lu %5lu\n",
(unsigned long) rem->pthree,
(unsigned long) rem->sthree);
if(rem->ptwo!=0 || rem->stwo!=0)
fprintf(f, " two %5lu %5lu\n",
(unsigned long) rem->ptwo,
(unsigned long) rem->stwo);
fprintf(f, " one %5lu %5lu\n",
(unsigned long) rem->pone,
(unsigned long) rem->sone);
fprintf(f, " zero %5lu %5lu\n",
(unsigned long) rem->pzero,
(unsigned long) rem->szero);
if(rem->ptrail!=0)
{
fprintf(f, " ptrail %5lu\n",
(unsigned long) rem->ptrail);
}
if(rem->plead!=0)
{
fprintf(f, " plead %5lu\n",
(unsigned long) rem->plead);
}
if(has_foot(rem))
{
fprintf(f, " foot %5lu %5lu\n",
(unsigned long) rem->pfoot,
(unsigned long) rem->sfoot);
}
if(has_repeat(rem))
{
fprintf(f, " repeat %5lu %5lu\n",
(unsigned long) rem->prepeat,
(unsigned long) rem->srepeat);
}
if(rem->pre_data_bits>0)
{
fprintf(f, " pre_data_bits %d\n",rem->pre_data_bits);
# ifdef LONG_IR_CODE
fprintf(f, " pre_data 0x%llX\n",rem->pre_data);
# else
fprintf(f, " pre_data 0x%lX\n",rem->pre_data);
# endif
}
if(rem->post_data_bits>0)
{
fprintf(f, " post_data_bits %d\n",rem->post_data_bits);
# ifdef LONG_IR_CODE
fprintf(f, " post_data 0x%llX\n",rem->post_data);
# else
fprintf(f, " post_data 0x%lX\n",rem->post_data);
# endif
}
if(rem->pre_p!=0 && rem->pre_s!=0)
{
fprintf(f, " pre %5lu %5lu\n",
(unsigned long) rem->pre_p,
(unsigned long) rem->pre_s);
}
if(rem->post_p!=0 && rem->post_s!=0)
{
fprintf(f, " post %5lu %5lu\n",
(unsigned long) rem->post_p,
(unsigned long) rem->post_s);
}
fprintf(f, " gap %lu\n",
(unsigned long) rem->gap);
if(has_repeat_gap(rem))
{
fprintf(f, " repeat_gap %lu\n",
(unsigned long) rem->repeat_gap);
}
if(rem->min_repeat>0)
{
fprintf(f, " min_repeat %d\n",rem->min_repeat);
}
fprintf(f, " toggle_bit %d\n\n",rem->toggle_bit);
if(has_toggle_mask(rem))
{
# ifdef LONG_IR_CODE
fprintf(f, " toggle_mask 0x%llX\n",
rem->toggle_mask);
# else
fprintf(f, " toggle_mask 0x%lX\n",
rem->toggle_mask);
# endif
}
if(rem->rc6_mask!=0)
{
# ifdef LONG_IR_CODE
fprintf(f, " rc6_mask 0x%llX\n",
rem->rc6_mask);
# else
fprintf(f, " rc6_mask 0x%lX\n",
rem->rc6_mask);
# endif
}
if(is_serial(rem))
{
fprintf(f, " baud %d\n",rem->baud);
fprintf(f, " serial_mode %dN%d%s\n",
rem->bits_in_byte,
rem->stop_bits/2,
rem->stop_bits%2 ? ".5":"");
}
}
else
{
fprintf(f, " name %s\n",rem->name);
fprint_flags(f,rem->flags);
fprintf(f, " eps %5d\n",rem->eps);
fprintf(f, " aeps %5d\n\n",rem->aeps);
fprintf(f, " ptrail %5lu\n",(unsigned long) rem->ptrail);
fprintf(f, " repeat %5lu %5lu\n",
(unsigned long) rem->prepeat,
(unsigned long) rem->srepeat);
fprintf(f, " gap %lu\n",(unsigned long) rem->gap);
}
if(rem->freq!=0)
{
fprintf(f, " frequency %u\n",rem->freq);
}
if(rem->duty_cycle!=0)
{
fprintf(f, " duty_cycle %u\n",rem->duty_cycle);
}
fprintf(f,"\n");
}
void fprint_remote_foot(FILE *f, struct ir_remote *rem)
{
fprintf(f, "end remote\n");
}
void fprint_remote_signal_head(FILE *f, struct ir_remote *rem)
{
if(!is_raw(rem))
fprintf(f, " begin codes\n");
else
fprintf(f, " begin raw_codes\n\n");
}
void fprint_remote_signal_foot(FILE *f, struct ir_remote *rem)
{
if(!is_raw(rem))
fprintf(f, " end codes\n\n");
else
fprintf(f, " end raw_codes\n\n");
}
void fprint_remote_signal(FILE *f,struct ir_remote *rem, struct ir_ncode *codes)
{
int i,j;
if(!is_raw(rem))
{
char format[30];
struct ir_code_node *loop;
# ifdef LONG_IR_CODE
sprintf(format, " %%-24s 0x%%0%dllX",
(rem->bits+3)/4);
# else
sprintf(format, " %%-24s 0x%%0%dlX",
(rem->bits+3)/4);
# endif
fprintf(f, format, codes->name, codes->code);
sprintf(format, " 0x%%0%dlX", (rem->bits+3)/4);
for(loop=codes->next; loop!=NULL; loop=loop->next)
{
fprintf(f, format, loop->code);
}
fprintf(f, "\n");
}
else
{
fprintf(f, " name %s\n",codes->name);
j=0;
for(i=0;i<codes->length;i++){
if (j==0){
fprintf(f, " %7lu",
(unsigned long) codes->signals[i]);
}else if (j<5){
fprintf(f, " %7lu",
(unsigned long) codes->signals[i]);
}else{
fprintf(f, " %7lu\n",
(unsigned long) codes->signals[i]);
j=-1;
}
j++;
}
codes++;
if (j==0)
{
fprintf(f,"\n");
}else
{
fprintf(f,"\n\n");
j=0;
}
}
}
void fprint_remote_signals(FILE *f, struct ir_remote *rem)
{
struct ir_ncode *codes;
fprint_remote_signal_head(f,rem);
codes=rem->codes;
while(codes->name!=NULL)
{
fprint_remote_signal(f,rem,codes);
codes++;
}
fprint_remote_signal_foot(f,rem);
}
void fprint_remote(FILE *f, struct ir_remote *rem)
{
fprint_comment(f,rem);
fprint_remote_head(f,rem);
fprint_remote_signals(f,rem);
fprint_remote_foot(f,rem);
}
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