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/*
*
* NMEA library
* URL: http://nmea.sourceforge.net
* Author: Tim (xtimor@gmail.com)
* Licence: http://www.gnu.org/licenses/lgpl.html
* $Id: parser.c 17 2008-03-11 11:56:11Z xtimor $
*
*/
/**
* \file parser.h
*/
#include "nmea/tok.h"
#include "nmea/parse.h"
#include "nmea/parser.h"
#include "nmea/context.h"
#include <string.h>
#include <stdlib.h>
typedef struct _nmeaParserNODE
{
int packType;
void *pack;
struct _nmeaParserNODE *next_node;
} nmeaParserNODE;
/*
* high level
*/
/**
* \brief Initialization of parser object
* @return true (1) - success or false (0) - fail
*/
int nmea_parser_init(nmeaPARSER *parser)
{
int resv = 0;
int buff_size = nmea_property()->parse_buff_size;
//NMEA_ASSERT(parser);
if(buff_size < NMEA_MIN_PARSEBUFF)
buff_size = NMEA_MIN_PARSEBUFF;
memset(parser, 0, sizeof(nmeaPARSER));
if(0 == (parser->buffer = malloc(buff_size)))
nmea_error("Insufficient memory!");
else
{
parser->buff_size = buff_size;
resv = 1;
}
return resv;
}
/**
* \brief Destroy parser object
*/
void nmea_parser_destroy(nmeaPARSER *parser)
{
//NMEA_ASSERT(parser && parser->buffer);
free(parser->buffer);
nmea_parser_queue_clear(parser);
memset(parser, 0, sizeof(nmeaPARSER));
}
/**
* \brief Analysis of buffer and put results to information structure
* @return Number of packets wos parsed
*/
int nmea_parse(
nmeaPARSER *parser,
const char *buff, int buff_sz,
nmeaINFO *info
)
{
int ptype, nread = 0;
void *pack = 0;
//NMEA_ASSERT(parser && parser->buffer);
nmea_parser_push(parser, buff, buff_sz);
while(GPNON != (ptype = nmea_parser_pop(parser, &pack)))
{
nread++;
switch(ptype)
{
case GPGGA:
nmea_GPGGA2info((nmeaGPGGA *)pack, info);
break;
case GPGSA:
nmea_GPGSA2info((nmeaGPGSA *)pack, info);
break;
case GPGSV:
nmea_GPGSV2info((nmeaGPGSV *)pack, info);
break;
case GPRMC:
nmea_GPRMC2info((nmeaGPRMC *)pack, info);
break;
case GPVTG:
nmea_GPVTG2info((nmeaGPVTG *)pack, info);
break;
};
free(pack);
}
return nread;
}
/*
* low level
*/
int nmea_parser_real_push(nmeaPARSER *parser, const char *buff, int buff_sz)
{
int nparsed = 0, crc, sen_sz, ptype;
nmeaParserNODE *node = 0;
//NMEA_ASSERT(parser && parser->buffer);
/* clear unuse buffer (for debug) */
/*
memset(
parser->buffer + parser->buff_use, 0,
parser->buff_size - parser->buff_use
);
*/
/* add */
if(parser->buff_use + buff_sz >= parser->buff_size)
nmea_parser_buff_clear(parser);
memcpy(parser->buffer + parser->buff_use, buff, buff_sz);
parser->buff_use += buff_sz;
/* parse */
for(;;node = 0)
{
sen_sz = nmea_find_tail(
(const char *)parser->buffer + nparsed,
(int)parser->buff_use - nparsed, &crc);
if(!sen_sz)
{
if(nparsed)
memcpy(
parser->buffer,
parser->buffer + nparsed,
parser->buff_use -= nparsed);
break;
}
else if(crc >= 0)
{
ptype = nmea_pack_type(
(const char *)parser->buffer + nparsed + 1,
parser->buff_use - nparsed - 1);
if(0 == (node = malloc(sizeof(nmeaParserNODE))))
goto mem_fail;
node->pack = 0;
switch(ptype)
{
case GPGGA:
if(0 == (node->pack = malloc(sizeof(nmeaGPGGA))))
goto mem_fail;
node->packType = GPGGA;
if(!nmea_parse_GPGGA(
(const char *)parser->buffer + nparsed,
sen_sz, (nmeaGPGGA *)node->pack))
{
free(node);
node = 0;
}
break;
case GPGSA:
if(0 == (node->pack = malloc(sizeof(nmeaGPGSA))))
goto mem_fail;
node->packType = GPGSA;
if(!nmea_parse_GPGSA(
(const char *)parser->buffer + nparsed,
sen_sz, (nmeaGPGSA *)node->pack))
{
free(node);
node = 0;
}
break;
case GPGSV:
if(0 == (node->pack = malloc(sizeof(nmeaGPGSV))))
goto mem_fail;
node->packType = GPGSV;
if(!nmea_parse_GPGSV(
(const char *)parser->buffer + nparsed,
sen_sz, (nmeaGPGSV *)node->pack))
{
free(node);
node = 0;
}
break;
case GPRMC:
if(0 == (node->pack = malloc(sizeof(nmeaGPRMC))))
goto mem_fail;
node->packType = GPRMC;
if(!nmea_parse_GPRMC(
(const char *)parser->buffer + nparsed,
sen_sz, (nmeaGPRMC *)node->pack))
{
free(node);
node = 0;
}
break;
case GPVTG:
if(0 == (node->pack = malloc(sizeof(nmeaGPVTG))))
goto mem_fail;
node->packType = GPVTG;
if(!nmea_parse_GPVTG(
(const char *)parser->buffer + nparsed,
sen_sz, (nmeaGPVTG *)node->pack))
{
free(node);
node = 0;
}
break;
default:
free(node);
node = 0;
break;
};
if(node)
{
if(parser->end_node)
((nmeaParserNODE *)parser->end_node)->next_node = node;
parser->end_node = node;
if(!parser->top_node)
parser->top_node = node;
node->next_node = 0;
}
}
nparsed += sen_sz;
}
return nparsed;
mem_fail:
if(node)
free(node);
nmea_error("Insufficient memory!");
return -1;
}
/**
* \brief Analysis of buffer and keep results into parser
* @return Number of bytes wos parsed from buffer
*/
int nmea_parser_push(nmeaPARSER *parser, const char *buff, int buff_sz)
{
int nparse, nparsed = 0;
do
{
if(buff_sz > parser->buff_size)
nparse = parser->buff_size;
else
nparse = buff_sz;
nparsed += nmea_parser_real_push(
parser, buff, nparse);
buff_sz -= nparse;
} while(buff_sz);
return nparsed;
}
/**
* \brief Get type of top packet keeped into parser
* @return Type of packet
* @see nmeaPACKTYPE
*/
int nmea_parser_top(nmeaPARSER *parser)
{
int retval = GPNON;
nmeaParserNODE *node = (nmeaParserNODE *)parser->top_node;
//NMEA_ASSERT(parser && parser->buffer);
if(node)
retval = node->packType;
return retval;
}
/**
* \brief Withdraw top packet from parser
* @return Received packet type
* @see nmeaPACKTYPE
*/
int nmea_parser_pop(nmeaPARSER *parser, void **pack_ptr)
{
int retval = GPNON;
nmeaParserNODE *node = (nmeaParserNODE *)parser->top_node;
//NMEA_ASSERT(parser && parser->buffer);
if(node)
{
*pack_ptr = node->pack;
retval = node->packType;
parser->top_node = node->next_node;
if(!parser->top_node)
parser->end_node = 0;
free(node);
}
return retval;
}
/**
* \brief Get top packet from parser without withdraw
* @return Received packet type
* @see nmeaPACKTYPE
*/
int nmea_parser_peek(nmeaPARSER *parser, void **pack_ptr)
{
int retval = GPNON;
nmeaParserNODE *node = (nmeaParserNODE *)parser->top_node;
//NMEA_ASSERT(parser && parser->buffer);
if(node)
{
*pack_ptr = node->pack;
retval = node->packType;
}
return retval;
}
/**
* \brief Delete top packet from parser
* @return Deleted packet type
* @see nmeaPACKTYPE
*/
int nmea_parser_drop(nmeaPARSER *parser)
{
int retval = GPNON;
nmeaParserNODE *node = (nmeaParserNODE *)parser->top_node;
//NMEA_ASSERT(parser && parser->buffer);
if(node)
{
if(node->pack)
free(node->pack);
retval = node->packType;
parser->top_node = node->next_node;
if(!parser->top_node)
parser->end_node = 0;
free(node);
}
return retval;
}
/**
* \brief Clear cache of parser
* @return true (1) - success
*/
int nmea_parser_buff_clear(nmeaPARSER *parser)
{
//NMEA_ASSERT(parser && parser->buffer);
parser->buff_use = 0;
return 1;
}
/**
* \brief Clear packets queue into parser
* @return true (1) - success
*/
int nmea_parser_queue_clear(nmeaPARSER *parser)
{
//NMEA_ASSERT(parser);
while(parser->top_node)
nmea_parser_drop(parser);
return 1;
}
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