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vrpn_5DT16.C
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vrpn_5DT16.C
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// This is a driver for the 5dt Data Glove 16 sensors
// Look at www.5dt.com for more informations about this product
// Manuals are avalaible freely from this site
// The original code for 5dt was written by Philippe DAVID with the help of Yves GAUVIN
// This version for the 16 sensor version was written by Tom De Weyer
// naming convention used in this file:
// l_ is the prefixe for local variables
// g_ is the prefixe for global variables
// p_ is the prefixe for parameters
#include <stdio.h> // for sprintf, fprintf, stderr
#include "vrpn_5DT16.h"
#include "vrpn_BaseClass.h" // for ::vrpn_TEXT_ERROR, etc
#include "vrpn_Serial.h"
#include "vrpn_Shared.h" // for timeval, vrpn_SleepMsecs, etc
#include "vrpn_MessageMacros.h" // for VRPN_MSG_INFO, VRPN_MSG_WARNING, VRPN_MSG_ERROR
#undef VERBOSE
// Defines the modes in which the device can find itself.
#define STATUS_RESETTING (-1) // Resetting the device
#define STATUS_SYNCING (0) // Looking for the first character of report
#define STATUS_READING (1) // Looking for the rest of the report
#define MAX_TIME_INTERVAL (2000000) // max time between reports (usec)
/******************************************************************************
* NAME : vrpn_5dt16::vrpn_5dt16
* ROLE : This creates a vrpn_5dt16 and sets it to reset mode. It opens
* the serial device using the code in the vrpn_Serial_Analog constructor.
* ARGUMENTS :
* RETURN :
******************************************************************************/
vrpn_5dt16::vrpn_5dt16 (const char * p_name, vrpn_Connection * p_c, const char * p_port, int p_baud):
vrpn_Serial_Analog (p_name, p_c, p_port, p_baud, 8, vrpn_SER_PARITY_NONE),
_numchannels (17) // This is an estimate; will change when reports come
{
// Set the parameters in the parent classes
vrpn_Analog::num_channel = _numchannels;
vrpn_gettimeofday(×tamp, NULL); // Set watchdog now
// Set the status of the buttons and analogs to 0 to start
clear_values();
// Set the mode to reset
_status = STATUS_RESETTING;
}
/******************************************************************************
* NAME : vrpn_5dt16::clear_values
* ROLE :
* ARGUMENTS :
* RETURN :
******************************************************************************/
void vrpn_5dt16::clear_values (void)
{
int i;
for (i = 0; i < _numchannels; i++) {
vrpn_Analog::channel[i] = vrpn_Analog::last[i] = 0;
}
}
/******************************************************************************
* NAME : vrpn_5dt16::reset
* ROLE : This routine will reset the 5DT
* ARGUMENTS :
* RETURN : 0 else -1 in case of error
******************************************************************************/
int vrpn_5dt16::reset (void)
{
unsigned char l_inbuf [45];
int l_ret;
bool found=false;
struct timeval start, now;
vrpn_gettimeofday(&start, NULL);
while(!found) // read the begin sequence of an info packet "<I"
{
l_ret = vrpn_read_available_characters (serial_fd, l_inbuf, 1);
if(l_ret!=1) {
vrpn_SleepMsecs (100); //Give it time to send data
} else if(l_inbuf[0] == '<' ) {
while(!vrpn_read_available_characters (serial_fd, l_inbuf, 1)) {
vrpn_SleepMsecs (100); //Give it time to send data
}
if(l_inbuf[0]=='I') {
found=true;
}
}
// See if we've timed out on the reset
vrpn_gettimeofday(&now, NULL);
if (now.tv_sec > start.tv_sec + 2) {
fprintf(stderr,"vrpn_5dt16::reset(): Timeout during reset\n");
return -1;
}
}
vrpn_SleepMsecs (100); //Give it time to send data
l_ret=vrpn_read_available_characters (serial_fd, l_inbuf, 5); // read the rest of the data
char text[50];
sprintf(text,"Hardware Version %i.0%i",l_inbuf[0],l_inbuf[1]); // hardware version
VRPN_MSG_WARNING(text);
if (l_inbuf[2] & 1) //right or left glove
{
VRPN_MSG_WARNING ("A right glove is ready");
} else {
VRPN_MSG_WARNING ("A left glove is ready");
}
if (l_inbuf[3] & 1) //wireless glove or wired
{
VRPN_MSG_WARNING ("no wireless glove");
} else {
VRPN_MSG_WARNING ("wireless glove");
}
// We're now entering the syncing mode which send the read command to the glove
_status = STATUS_READING;
_bufcount = 0;
vrpn_gettimeofday (×tamp, NULL); // Set watchdog now
return 0;
}
/******************************************************************************
* NAME : vrpn_5dt16::get_report
* ROLE : This function will read characters until it has a full report, then
* put that report into analog fields and call the report methods on these.
* ARGUMENTS : void
* RETURN : void
******************************************************************************/
void vrpn_5dt16::get_report (void)
{
int l_ret; // Return value from function call to be checked
// The official doc (http://www.5dt.com/downloads/5DTDataGlove5Manual.pdf)
// says we should get 36 bytes, but once in a while an info packet arrives and we should
// ignore that packet.
_expected_chars = 36;
//--------------------------------------------------------------------
// Read as many bytes of this report as we can, storing them
// in the buffer. We keep track of how many have been read so far
// and only try to read the rest.
//--------------------------------------------------------------------
l_ret = vrpn_read_available_characters (serial_fd, &_buffer [_bufcount],
_expected_chars - _bufcount);
if (l_ret == -1) {
VRPN_MSG_ERROR ("Error reading the glove");
_status = STATUS_RESETTING;
return;
}
#ifdef VERBOSE
if (l_ret != 0) printf("... got %d characters (%d total)\n",l_ret, _bufcount);
#endif
//--------------------------------------------------------------------
// The time of the report is the time at which the first character for
// the report is read.
//--------------------------------------------------------------------
if ( (l_ret > 0) && (_bufcount == 0) ) {
vrpn_gettimeofday(×tamp, NULL);
}
//--------------------------------------------------------------------
// We keep track of how many characters we have received and keep
// going back until we get as many as we expect.
//--------------------------------------------------------------------
_bufcount += l_ret;
if (_bufcount < _expected_chars) { // Not done -- go back for more
return;
}
//--------------------------------------------------------------------
// We now have enough characters to make a full report. First check to
// make sure that the first one is what we expect.
if (!( (_buffer[0] == '<') && (_buffer[1] == 'D') ) ) //first characters need to be <D
{
VRPN_MSG_INFO ("Unexpected first character in report, probably info packet (recovering)");
for(int i=0;i<29;i++) {
_buffer[i]=_buffer[i+7];
}
_bufcount=29;
return;
}
#ifdef VERBOSE
printf ("Got a complete report (%d of %d)!\n", _bufcount, _expected_chars);
#endif
//--------------------------------------------------------------------
// Decode the report and store the values in it into the analog values
// if appropriate.
//--------------------------------------------------------------------
for(int i=0;i<16;i++) {
channel[i]=_buffer[i*2+2]*256+_buffer[i*2+3];
}
char text[512];
sprintf(text,"original %f|%f|%f|%f|%f|%f|%f|%f|%f|%f|%f|%f|%f|%f|%f|%f\n",channel[0],channel[1],channel[2],channel[3],channel[4],
channel[5],channel[6],channel[7],channel[8],channel[9],
channel[10],channel[11],channel[12],channel[13],channel[14],
channel[15]);
VRPN_MSG_ERROR(text);
//--------------------------------------------------------------------
// Done with the decoding, send the reports and go back to syncing
//--------------------------------------------------------------------
report_changes();
_bufcount =0;
}
/******************************************************************************
* NAME : vrpn_5dt16::report_changes
* ROLE :
* ARGUMENTS :
* RETURN : void
******************************************************************************/
void vrpn_5dt16::report_changes (vrpn_uint32 class_of_service)
{
vrpn_Analog::timestamp = timestamp;
vrpn_Analog::report_changes(class_of_service);
}
/******************************************************************************
* NAME : vrpn_5dt16::report
* ROLE :
* ARGUMENTS :
* RETURN : void
******************************************************************************/
void vrpn_5dt16::report (vrpn_uint32 class_of_service)
{
vrpn_Analog::timestamp = timestamp;
vrpn_Analog::report(class_of_service);
}
/******************************************************************************
* NAME : vrpn_5dt16::mainloop
* ROLE : This routine is called each time through the server's main loop. It will
* take a course of action depending on the current status of the device,
* either trying to reset it or trying to get a reading from it. It will
* try to reset the device if no data has come from it for a couple of
* seconds
* ARGUMENTS :
* RETURN : void
******************************************************************************/
void vrpn_5dt16::mainloop ()
{
char l_errmsg[256];
server_mainloop();
switch (_status) {
case STATUS_RESETTING:
if (reset()== -1)
{
VRPN_MSG_ERROR ("vrpn_Analog_5dt: Cannot reset the glove!");
}
break;
case STATUS_READING:
{
// It turns out to be important to get the report before checking
// to see if it has been too long since the last report. This is
// because there is the possibility that some other device running
// in the same server may have taken a long time on its last pass
// through mainloop(). Trackers that are resetting do this. When
// this happens, you can get an infinite loop -- where one tracker
// resets and causes the other to timeout, and then it returns the
// favor. By checking for the report here, we reset the timestamp
// if there is a report ready (ie, if THIS device is still operating).
get_report();
struct timeval current_time;
vrpn_gettimeofday(¤t_time, NULL);
if ( vrpn_TimevalDuration(current_time,timestamp) > MAX_TIME_INTERVAL)
{
sprintf (l_errmsg, "vrpn_5dt16::mainloop: Timeout... current_time=%ld:%ld, timestamp=%ld:%ld",
current_time.tv_sec,
static_cast<long>(current_time.tv_usec),
timestamp.tv_sec,
static_cast<long>(timestamp.tv_usec));
VRPN_MSG_ERROR (l_errmsg);
_status = STATUS_RESETTING;
}
}
break;
default:
VRPN_MSG_ERROR ("vrpn_5dt16::mainloop: Unknown mode (internal error)");
break;
}
}
vrpn_Button_5DT_Server::vrpn_Button_5DT_Server(const char *name, const char *deviceName,vrpn_Connection *c, double threshold[16]) : vrpn_Button_Filter(name, c)
{
num_buttons = 16;
for(int i=0;i<num_buttons;i++) {
m_threshold[i]=threshold[i];
}
d_5dt_button = NULL;
d_5dt_button = new vrpn_Analog_Remote(deviceName, d_connection);
#ifdef VERBOSE
printf("vrpn_Button_5DT_Server: Adding local analog %s\n",name);
#endif
// Set up the callback handler for the channel
d_5dt_button->register_change_handler(this, handle_analog_update);
}
vrpn_Button_5DT_Server::~vrpn_Button_5DT_Server(void)
{
}
// This routine handles updates of the analog values. The value coming in is
// adjusted per the parameters in the full axis description, and then used to
// update the value there. The value is used by the matrix-generation code in
// mainloop() to update the transformations; that work is not done here.
void vrpn_Button_5DT_Server::handle_analog_update (void *userdata, const vrpn_ANALOGCB info)
{
vrpn_Button_5DT_Server *full = (vrpn_Button_5DT_Server *)userdata;
for(int i=0;i<16;i++) { // adjust with range and center value
if(info.channel[i]>full->m_threshold[i] ) {
full->buttons[i]=true;
} else {
full->buttons[i]=false;
}
}
}
void vrpn_Button_5DT_Server::mainloop()
{
struct timeval current_time;
// Call the generic server mainloop, since we are a server
server_mainloop();
d_5dt_button->mainloop();
vrpn_gettimeofday(¤t_time, NULL);
// Send reports. Stays the same in a real server.
report_changes();
}