Naoya Takamura
IM920地温観測システム用 cbUSB()関数定義だけ修正したもの
Fork of
C027_Support
by 
u-blox
GPS.cpp
- Committer:
- mazgch
- Date:
- 2014-04-08
- Revision:
- 21:c4d64830bf02
- Parent:
- 19:2b5d097ca15d
- Child:
- 24:0e287a85ac9e
File content as of revision 21:c4d64830bf02:
#include "mbed.h"
#include <ctype.h>
#include "GPS.h"
int GPSParser::_getMessage(Pipe<char>* pipe, char* buf, int len)
{
int unkn = 0;
int sz = pipe->size();
int fr = pipe->free();
if (len > sz)
len = sz;
while (len > 0)
{
// NMEA protocol
pipe->set(unkn);
int nmea = _parseNmea(pipe,len);
if ((nmea != NOT_FOUND) && (unkn > 0))
return pipe->get(buf,unkn);
if (nmea == WAIT && fr)
return WAIT;
if (nmea > 0)
return NMEA | pipe->get(buf,nmea);
// UBX protocol
pipe->set(unkn);
int ubx = _parseUbx(pipe,len);
if ((ubx != NOT_FOUND) && (unkn > 0))
return pipe->get(buf,unkn);
if (ubx == WAIT && fr)
return WAIT;
if (ubx > 0)
return UBX | pipe->get(buf,ubx);
// UNKNOWN
unkn ++;
len--;
}
if (unkn > 0)
return pipe->get(buf,unkn);
return WAIT;
}
int GPSParser::_parseNmea(Pipe<char>* pipe, int len)
{
int o = 0;
int c = 0;
char ch;
if (++o > len) return WAIT;
if ('$' != pipe->next()) return NOT_FOUND;
// this needs to be extended by crc checking
for (;;)
{
if (++o > len) return WAIT;
ch = pipe->next();
if ('*' == ch) break; // crc delimiter
if (!isprint(ch)) return NOT_FOUND;
c ^= ch;
}
if (++o > len) return WAIT;
ch = toHex[(c >> 4) & 0xF]; // high nibble
if (ch != pipe->next()) return NOT_FOUND;
if (++o > len) return WAIT;
ch = toHex[(c >> 0) & 0xF]; // low nibble
if (ch != pipe->next()) return NOT_FOUND;
if (++o > len) return WAIT;
if ('\r' != pipe->next()) return NOT_FOUND;
if (++o > len) return WAIT;
if ('\n' != pipe->next()) return NOT_FOUND;
return o;
}
int GPSParser::_parseUbx(Pipe<char>* pipe, int l)
{
int o = 0;
if (++o > l) return WAIT;
if ('\xB5' != pipe->next()) return NOT_FOUND;
if (++o > l) return WAIT;
if ('\x62' != pipe->next()) return NOT_FOUND;
o += 4;
if (o > l) return WAIT;
int i,j,ca,cb;
i = pipe->next(); ca = i; cb = ca; // cls
i = pipe->next(); ca += i; cb += ca; // id
i = pipe->next(); ca += i; cb += ca; // len_lsb
j = pipe->next(); ca += j; cb += ca; // len_msb
j = i + (j << 8);
while (j--)
{
if (++o > l) return WAIT;
i = pipe->next();
ca += i;
cb += ca;
}
ca &= 0xFF; cb &= 0xFF;
if (++o > l) return WAIT;
if (ca != pipe->next()) return NOT_FOUND;
if (++o > l) return WAIT;
if (cb != pipe->next()) return NOT_FOUND;
return o;
}
int GPSParser::send(const char* buf, int len)
{
return _send(buf, len);
}
int GPSParser::sendNmea(const char* buf, int len)
{
char head[1] = { '$' };
char tail[5] = { '*', 0x00/*crc_high*/, 0x00/*crc_low*/, '\r', '\n' };
int i;
int crc = 0;
for (i = 0; i < len; i ++)
crc ^= *buf++;
i = _send(head, sizeof(head));
i += _send(buf, len);
tail[1] = toHex[(crc > 4) & 0xF0];
tail[2] = toHex[(crc > 0) & 0x0F];
i += _send(tail, sizeof(tail));
return i;
}
int GPSParser::sendUbx(unsigned char cls, unsigned char id, const void* buf /*= NULL*/, int len /*= 0*/)
{
char head[6] = { 0xB5, 0x62, cls, id, len >> 0, len >> 8 };
char crc[2];
int i;
int ca = 0;
int cb = 0;
for (i = 2; i < 6; i ++)
{
ca += head[i];
cb += ca;
}
for (i = 0; i < len; i ++)
{
ca += ((char*)buf)[i];
cb += ca;
}
i = _send(head, sizeof(head));
i += _send(buf, len);
crc[0] = ca & 0xFF;
crc[1] = cb & 0xFF;
i += _send(crc, sizeof(crc));
return i;
}
const char* GPSParser::findNmeaItemPos(int ix, const char* start, const char* end)
{
// find the start
for (; (start < end) && (ix > 0); start ++)
{
if (*start == ',')
ix --;
}
// found and check bounds
if ((ix == 0) && (start < end) &&
(*start != ',') && (*start != '*') && (*start != '\r') && (*start != '\n'))
return start;
else
return NULL;
}
bool GPSParser::getNmeaItem(int ix, char* buf, int len, double& val)
{
char* end = &buf[len];
const char* pos = findNmeaItemPos(ix, buf, end);
// find the start
if (!pos)
return false;
val = strtod(pos, &end);
// restore the last character
return (end > pos);
}
bool GPSParser::getNmeaItem(int ix, char* buf, int len, int& val, int base /*=10*/)
{
char* end = &buf[len];
const char* pos = findNmeaItemPos(ix, buf, end);
// find the start
if (!pos)
return false;
val = (int)strtol(pos, &end, base);
return (end > pos);
}
bool GPSParser::getNmeaItem(int ix, char* buf, int len, char& val)
{
const char* end = &buf[len];
const char* pos = findNmeaItemPos(ix, buf, end);
// find the start
if (!pos)
return false;
// skip leading spaces
while ((pos < end) && isspace(*pos))
pos++;
// check bound
if ((pos < end) &&
(*pos != ',') && (*pos != '*') && (*pos != '\r') && (*pos != '\n'))
{
val = *pos;
return true;
}
return false;
}
bool GPSParser::getNmeaAngle(int ix, char* buf, int len, double& d)
{
char ch;
double val;
if (getNmeaItem(ix,buf,len,val) && getNmeaItem(ix+1,buf,len,ch) &&
((ch == 'S') || (ch == 'N') || (ch == 'E') || (ch == 'W')))
{
val *= 0.01;
int i = (int)val;
val = (val - i) / 0.6 + i;
if (ch == 'S' || ch == 'W')
val = -val;
d = val;
return true;
}
return false;
}
const char GPSParser::toHex[] = { '0','1','2','3','4','5','6','7','8','9','A','B','C','D','E','F' };
// ----------------------------------------------------------------
// Serial Implementation
// ----------------------------------------------------------------
GPSSerial::GPSSerial(PinName tx /*= GPSTXD*/, PinName rx /*= GPSRXD*/, int baudrate /*= GPSBAUD*/,
int rxSize /*= 256*/, int txSize /*= 128*/) :
SerialPipe(tx, rx, rxSize, txSize)
{
baud(baudrate);
}
int GPSSerial::getMessage(char* buf, int len)
{
return _getMessage(&_pipeRx, buf, len);
}
int GPSSerial::_send(const void* buf, int len)
{
return put((const char*)buf, len, true/*=blocking*/);
}
// ----------------------------------------------------------------
// I2C Implementation
// ----------------------------------------------------------------
GPSI2C::GPSI2C(PinName sda /*= GPSSDA*/, PinName scl /*= GPSSCL*/,
unsigned char i2cAdr /*=GPSADR*/, int rxSize /*= 256*/) :
I2C(sda,scl),
_pipe(rxSize),
_i2cAdr(i2cAdr)
{
found = false;
}
bool GPSI2C::detect(void)
{
if (!found)
{
int w = I2C::write(_i2cAdr,®STREAM,sizeof(REGSTREAM));
if (w == 0)
found = true;
}
return found;
}
int GPSI2C::getMessage(char* buf, int len)
{
// fill the pipe
int sz = _pipe.free();
if (sz)
sz = _get(buf, sz);
if (sz)
_pipe.put(buf, sz);
// now parse it
return _getMessage(&_pipe, buf, len);
}
int GPSI2C::send(const char* buf, int len)
{
int sent = 0;
if (len)
{
if (!I2C::write(_i2cAdr,®STREAM,sizeof(REGSTREAM),true))
sent = send(buf, len);
found = (len == sent);
stop();
}
return sent;
}
int GPSI2C::sendNmea(const char* buf, int len)
{
int sent = 0;
if (!I2C::write(_i2cAdr,®STREAM,sizeof(REGSTREAM),true))
sent = GPSParser::sendNmea(buf, len);
found = (len == sent);
stop();
return sent;
}
int GPSI2C::sendUbx(unsigned char cls, unsigned char id, const void* buf, int len)
{
int sent = 0;
if (!I2C::write(_i2cAdr,®STREAM,sizeof(REGSTREAM),true))
sent = GPSParser::sendUbx(cls, id, buf, len);
found = (len == sent);
I2C::stop();
return sent;
}
int GPSI2C::_get(char* buf, int len)
{
int read = 0;
unsigned char sz[2];
if (!I2C::write(_i2cAdr,®LEN,sizeof(REGLEN),true) &&
!I2C::read(_i2cAdr,(char*)sz,sizeof(sz),true))
{
int size = 256 * (int)sz[0] + sz[1];
if (size > len)
size = len;
if (size > 0)
read = !I2C::read(_i2cAdr,buf,size, true) ? size : 0;
found = (read == size);
}
else
found = false;
I2C::stop();
return read;
}
int GPSI2C::_send(const void* buf, int len)
{
return !I2C::write(_i2cAdr,(const char*)buf,len,true) ? len : 0;
}
const char GPSI2C::REGLEN = 0xFD;
const char GPSI2C::REGSTREAM = 0xFF;