/*
usmc_ctrl -a
usmc_ctrl -n 0 -i
usmc_ctrl -n 0 -p 1 -s 5000 -m 10000 - p 0
usmc_ctrl -n 0 -p 1 -h -p 0
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#ifndef _WINDOWS
# include "libusmc.h"
# include <getopt.h>
# define Delay(x) usleep((int)(x*1000000))
#else
# include "USMCDLL.H"
# include <utility.h>
# include <ansi_c.h>
#define ERR(s, c) if(opterr) fprintf(stderr,"%s %c\n",s,c);
int opterr
= 1;
int optind
= 1;
int optopt
;
char *optarg
;
int getopt
(int argc
, char **argv
, char *opts
){
static int sp
= 1;
int c
;
char *cp
;
if(sp
== 1)
if(optind
>= argc
||
argv
[optind
][0] != '-' || argv
[optind
][1] == '\0')
return(EOF
);
else if(strcmp(argv
[optind
], "--") == NULL
) {
optind
++;
return(EOF
);
}
optopt
= c
= argv
[optind
][sp
];
if(c
== ':' || (cp
=strchr(opts
, c
)) == NULL
) {
ERR
(": illegal option -- ", c
);
if(argv
[optind
][++sp
] == '\0') {
optind
++;
sp
= 1;
}
return('?');
}
if(*++cp
== ':') {
if(argv
[optind
][sp
+1] != '\0')
optarg
= &argv
[optind
++][sp
+1];
else if(++optind
>= argc
) {
ERR
(": option requires an argument -- ", c
);
sp
= 1;
return('?');
} else
optarg
= argv
[optind
++];
sp
= 1;
} else {
if(argv
[optind
][++sp
] == '\0') {
sp
= 1;
optind
++;
}
optarg
= NULL
;
}
return(c
);
}
#endif
#define MAXNODES 4
USMC_Devices devices
;
USMC_StartParameters parstart
[MAXNODES
];
USMC_Parameters parameters
[MAXNODES
];
USMC_State parstate
[MAXNODES
];
USMC_EncoderState parencstate
[MAXNODES
];
#define ERRLEN 128
char errstr
[ERRLEN
];
// Function that prints information about device parameters to console
void print_parameters
(USMC_Parameters
*Parameters
)
{
printf( "The parameters are:\n" );
printf( "Full acceleration time - %.0f ms\n", (double) Parameters
->AccelT
);
printf( "Full deceleration time - %.0f ms\n", (double) Parameters
->DecelT
);
printf( "Power reduction timeout - %.0f ms\n", (double) Parameters
->PTimeout
);
printf( "Button speedup timeout 1 - %.0f ms\n", (double) Parameters
->BTimeout1
);
printf( "Button speed after timeout 1 - %.2f steps/s\n", (double) Parameters
->BTO1P
);
printf( "Button speedup timeout 2 - %.0f ms\n", (double) Parameters
->BTimeout2
);
printf( "Button speed after timeout 2 - %.2f steps/s\n", (double) Parameters
->BTO2P
);
printf( "Button speedup timeout 3 - %.0f ms\n", (double) Parameters
->BTimeout3
);
printf( "Button speed after timeout 3 - %.2f steps/s\n", (double) Parameters
->BTO3P
);
printf( "Button speedup timeout 4 - %.0f ms\n", (double) Parameters
->BTimeout4
);
printf( "Button speed after timeout 4 - %.2f steps/s\n", (double) Parameters
->BTO4P
);
printf( "Button reset timeout - %.0f ms\n", (double) Parameters
->BTimeoutR
);
printf( "Button reset operation speed - %.2f steps/s\n", (double) Parameters
->MinP
);
printf( "Backlash operation distance - %d steps\n", (int)Parameters
->MaxLoft
);
printf( "Revolution distance - %d steps\n", (int)Parameters
->RTDelta
);
printf( "Minimal revolution distance error - %d steps\n", (int)Parameters
->RTMinError
);
printf( "Power off temperature - %.2f\xf8\x43\n", (double)Parameters
->MaxTemp
);
printf( "Duration of the output synchronization pulse - ");
if(Parameters
->SynOUTP
== 0)
printf( "minimal\n");
else
printf( "%.1f * [Tact Period]\n", Parameters
->SynOUTP
- 0.5);
printf( "Speed of the last phase of the backlash operation - ");
if(Parameters
->LoftPeriod
== 0.0f)
printf( "normal\n" );
else
printf( "%.2f steps/s\n", (double)Parameters
->LoftPeriod
);
printf( "<Angular Encoder Step> Equals <Angular Step Motor Step>/<%.2f>\n", Parameters
->EncMult
);
}
// Function that prints information about device start parameters to console
void print_start_params
( const USMC_StartParameters sp
){
printf ( "* Steps Divisor - %d\n", sp.
SDivisor );
if ( sp.
SDivisor == 1 )
printf ( "* Slow start/stop mode - %s\n", sp.
SlStart ? "Enabled" : "Disabled" );
else if ( sp.
LoftEn ) {
printf ( "* Automatic backlash operation - Enabled\n" );
printf ( "* Automatic backlash operation direction - %s\n", sp.
DefDir ? "CCW" : "CW" );
printf ( "* Force automatic backlash operation - %s\n", sp.
ForceLoft ? "TRUE" : "FALSE" );
} else {
printf ( "* Automatic backlash operation - Disabled\n" );
}
if ( sp.
WSyncIN )
printf ( "* Controller will wait for input synchronization signal to start\n" );
else
printf ( "* Input synchronization signal ignored \n" );
printf ( "* Output synchronization counter will %sbe reset\n", sp.
SyncOUTR ? "" : "not " );
}
// Function that prints information about device state to console
void print_state
(USMC_State
*State
)
{
printf( " The state is:\n" );
printf( "- Current Position in microsteps - %d\n", State
->CurPos
);
printf( "- Temperature - %.2f\xf8\x43\n", State
->Temp
);
printf( "- Step Divisor - %d\n", State
->SDivisor
);
printf( "- Loft State - %s\n", State
->Loft
?"Indefinite":"Fixed" );
printf( "- Power - %s\n", State
->Power
?(State
->FullPower
?"Full":"Half"):"Off" );
if(State
->RUN
)
printf( "- Step Motor is Running in %s Direction %s\n",
State
->CW_CCW
?"CCW":"CW", ((State
->SDivisor
==1) && State
->FullSpeed
)?"at Full Speed":"" );
else
printf( "- Step Motor is Not Running\n" );
printf( "- Device %s\n", State
->AReset
?"is After Reset":"Position Already Set" );
printf( "- Input Synchronization Logical Pin State - %s\n", State
->SyncIN
?"TRUE":"FALSE" );
printf( "- Output Synchronization Logical Pin State - %s\n", State
->SyncOUT
?"TRUE":"FALSE" );
printf( "- Rotary Transducer Logical Pin State - %s\n", State
->RotTr
?"TRUE":"FALSE" );
printf( "- Rotary Transducer Error Flag - %s\n", State
->RotTrErr
?"Error":"Clear" );
printf( "- Emergency Disable Button - %s\n", State
->EmReset
?"Pushed":"Unpushed" );
printf( "- Trailer 1 Press State - %s\n", State
->Trailer1
?"Pushed":"Unpushed" );
printf( "- Trailer 2 Press State - %s\n", State
->Trailer2
?"Pushed":"Unpushed" );
if( State
->Voltage
== 0.0f )
printf( "- Input Voltage - Low\n");
else
printf( "- Input Voltage - %.1fV\n", State
->Voltage
);
}
void print_enc_state
( USMC_EncoderState enc_state
)
{
printf ( "# The encoder state is:\n" );
printf ( "# Current Position in \"Half of Encoder Step\"s - %d\n", enc_state.
ECurPos );
printf ( "# Encoder Position in \"Half of Encoder Step\"s - %d\n", enc_state.
EncoderPos );
}
// Function that prints information about connected devices to console
void printdevices
(USMC_Devices DVS
)
{
DWORD i
;
for( i
= 0; i
< DVS.
NOD; i
++)
{
printf("Device - %d,\tSerial Number - %.16s,\tVersion - %.4s\n",i
,DVS.
Serial[i
],DVS.
Version[i
]);
}
}
int usmc_Set_Parameters
(int Dev
, int mode
)
{
USMC_Mode umode
;
if( USMC_GetParameters
(Dev
, ¶meters
[Dev
]) )
return TRUE
;
switch (mode
) {
case 1:
// Linear stage
parameters
[Dev
].
MaxTemp = 70.0f;
parameters
[Dev
].
AccelT = 200.0f;
parameters
[Dev
].
DecelT = 200.0f;
parameters
[Dev
].
BTimeout1 = 500.0f;
parameters
[Dev
].
BTimeout2 = 500.0f;
parameters
[Dev
].
BTimeout3 = 500.0f;
parameters
[Dev
].
BTimeout4 = 500.0f;
parameters
[Dev
].
BTO1P = 10.0f;
parameters
[Dev
].
BTO2P = 20.0f;
parameters
[Dev
].
BTO3P = 30.0f;
parameters
[Dev
].
BTO4P = 60.0f;
parameters
[Dev
].
MinP = 60.0f;
parameters
[Dev
].
BTimeoutR = 500.0f;
parameters
[Dev
].
LoftPeriod = 50.0f;
parameters
[Dev
].
RTDelta = 20;
parameters
[Dev
].
RTMinError = 15;
parameters
[Dev
].
EncMult = 2.5f;
parameters
[Dev
].
MaxLoft = 32;
parameters
[Dev
].
PTimeout = 100.0f;
parameters
[Dev
].
SynOUTP = 1;
break;
case 0:
// Rotation stage
parameters
[Dev
].
MaxTemp = 70.0f;
parameters
[Dev
].
AccelT = 200.0f;
parameters
[Dev
].
DecelT = 200.0f;
parameters
[Dev
].
BTimeout1 = 500.0f;
parameters
[Dev
].
BTimeout2 = 500.0f;
parameters
[Dev
].
BTimeout3 = 500.0f;
parameters
[Dev
].
BTimeout4 = 500.0f;
parameters
[Dev
].
BTO1P = 100.0f;
parameters
[Dev
].
BTO2P = 200.0f;
parameters
[Dev
].
BTO3P = 300.0f;
parameters
[Dev
].
BTO4P = 600.0f;
parameters
[Dev
].
MinP = 500.0f;
parameters
[Dev
].
BTimeoutR = 500.0f;
parameters
[Dev
].
LoftPeriod = 500.0f;
parameters
[Dev
].
RTDelta = 200;
parameters
[Dev
].
RTMinError = 15;
parameters
[Dev
].
EncMult = 2.5f;
parameters
[Dev
].
MaxLoft = 32;
parameters
[Dev
].
PTimeout = 100.0f;
parameters
[Dev
].
SynOUTP = 1;
break;
}
//
if( USMC_SetParameters
( Dev
, ¶meters
[Dev
] ) )
return TRUE
;
if( USMC_SaveParametersToFlash
( Dev
) )
return TRUE
;
if (mode
){
if ( USMC_GetMode
( Dev
, &umode
) ) return FALSE
;
umode.
TrSwap = 0;
if ( USMC_SetMode
( Dev
, &umode
) ) return FALSE
;
printf ( "Now, TrSwap is %d \n", umode.
TrSwap );
}
//system("cls");
print_parameters
( ¶meters
[Dev
] );
printf("\nThese Parameters are Saved to Flash");
return FALSE
;
}
int usmc_Init
(int node
, int mode
){
printf("\nNode %d\n",node
);
USMC_GetStartParameters
(node
,&parstart
[node
]);
USMC_GetLastErr
(errstr
,ERRLEN
); if (strlen(errstr
)) printf("i1 %s\n",errstr
);
USMC_GetState
(node
,&parstate
[node
]);
USMC_GetLastErr
(errstr
,ERRLEN
); if (strlen(errstr
)) printf("i2 %s\n",errstr
);
USMC_GetEncoderState
(node
,&parencstate
[node
]);
USMC_GetLastErr
(errstr
,ERRLEN
); if (strlen(errstr
)) printf("i3 %s\n",errstr
);
print_state
(&parstate
[node
]);
print_enc_state
( parencstate
[node
]);
print_start_params
(parstart
[node
] );
usmc_Set_Parameters
(node
, mode
);
return 0;
}
float usmc_speed
=10000;
int usmc_Move
(int node
, int pos
, BOOL absrel
){
time_t tcur
=0, tprev
=-1;
USMC_GetStartParameters
(node
,&parstart
[node
]);
USMC_GetLastErr
(errstr
,ERRLEN
); if (strlen(errstr
)) printf("x1 %s\n",errstr
);
parstart
[node
].
WSyncIN=absrel
;
parstart
[node
].
SlStart=1;
parstart
[node
].
LoftEn=0;
print_start_params
( parstart
[node
] );
USMC_Start
(node
,pos
,&usmc_speed
, &parstart
[node
]);
USMC_GetLastErr
(errstr
,ERRLEN
); if (strlen(errstr
)) printf("x2 %s speed %f\n",errstr
,usmc_speed
);
do {
USMC_GetState
(node
,&parstate
[node
]);
USMC_GetLastErr
(errstr
,ERRLEN
); // if (strlen(errstr)) printf("x3 %s\n",errstr);
tcur
= time(NULL
);
if (tcur
!= tprev
){
printf("%d CurPos %d L%d R%d Rot%d %s %s\n",node
,
parstate
[node
].
CurPos,parstate
[node
].
Trailer1,parstate
[node
].
Trailer2, parstate
[node
].
RotTr,
parstate
[node
].
RUN?"Run":"Stopped",parstate
[node
].
Power?"On":"Off" );
tprev
= tcur
;
}
} while ( parstate
[node
].
RUN == 1 );
USMC_GetState
(node
,&parstate
[node
]);
printf("***** %d CurPos %d L%d R%d %s %s\n",node
,
parstate
[node
].
CurPos,parstate
[node
].
Trailer1,parstate
[node
].
Trailer2,
parstate
[node
].
RUN?"Run":"Stopped",parstate
[node
].
Power?"On":"Off" );
USMC_GetParameters
(node
,¶meters
[node
]);
USMC_GetEncoderState
(node
,&parencstate
[node
]);
printf("node %d ECurPos 0x%0x %f EncoderPos =0x%04x %f\n",node
,
parencstate
[node
].
ECurPos, (((parencstate
[node
].
ECurPos)>>5)&0x8FFFFF)/parameters
[node
].
EncMult,
parencstate
[node
].
EncoderPos,((parencstate
[node
].
EncoderPos >> 5)&0x8FFFFF)/parameters
[node
].
EncMult);
return 0;
}
void usmc_PowerOnOff
( int cur_dev
, int smpower
){
USMC_Mode mode
;
if ( USMC_GetMode
( cur_dev
, &mode
) ) return;
mode.
ResetD = !smpower
;
if ( USMC_SetMode
( cur_dev
, &mode
) ) return;
printf ( "Now, Power of the node %d is %s\n", cur_dev
, mode.
ResetD ? "Off" : "On" );
}
int usmc_RelMove
(int node
, int pos
){
return usmc_Move
(node
,pos
, TRUE
);
}
int usmc_MoveTo
(int node
, int pos
){
return usmc_Move
(node
,pos
, FALSE
);
}
int Revert_Start_Position_to_0
(int node
)
{
USMC_Parameters Prms
;
// Initialize structures (in case this function runs first)
if( USMC_GetParameters
(node
, &Prms
) )
return TRUE
;
Prms.
StartPos = 0;
if( USMC_SetParameters
( node
, &Prms
) )
return TRUE
;
// Then of Course You Need to SaveToFlash
if( USMC_SaveParametersToFlash
( node
) )
return TRUE
;
//system("cls");
printf("\nStart Position is Reset to 0\n");
printf("\nPress any key to exit");
return FALSE
;
}
int usmc_Reset
(int node
, int mode
){
usmc_Init
(node
,mode
);
USMC_SetCurrentPosition
(node
, 0);
Revert_Start_Position_to_0
(node
);
return 0;
}
int usmc_ReferenceMove
(int node
, int mode
){
int pos
= 1000000;
int dir
=1;
if (mode
) dir
= -1;
USMC_GetState
(node
,&parstate
[node
]);
usmc_MoveTo
(node
, parstate
[node
].
CurPos -2 *pos
* dir
);
USMC_GetState
(node
,&parstate
[node
]);
pos
= 5000;
if (mode
) pos
=500;
usmc_MoveTo
(node
, parstate
[node
].
CurPos + pos
* dir
);
USMC_GetState
(node
,&parstate
[node
]);
usmc_speed
/=5;
usmc_MoveTo
(node
, parstate
[node
].
CurPos -2 *pos
* dir
);
USMC_GetState
(node
,&parstate
[node
]);
pos
= 2000;
if (mode
) pos
=200;
usmc_MoveTo
(node
, parstate
[node
].
CurPos + pos
*dir
);
USMC_GetState
(node
,&parstate
[node
]);
usmc_speed
/= 10;
usmc_MoveTo
(node
, parstate
[node
].
CurPos -2 *pos
* dir
);
USMC_GetState
(node
,&parstate
[node
]);
USMC_SetCurrentPosition
(node
, 0);
Revert_Start_Position_to_0
(node
);
return 0;
}
int help
(){
fprintf(stderr
, "Usage: mikro [-i node][-n node] [-u up] [-d down] [-r node] [-h node] [-a] [-g] [-m pos]\n");
fprintf(stderr
," Options:\n");
fprintf(stderr
," -n node -i mode .. initialize node\n");
fprintf(stderr
," -n node -h .. homing procedure for node\n");
fprintf(stderr
," -n node -p 1 .. power on\n");
fprintf(stderr
," -n node -p 0 .. power off\n");
fprintf(stderr
," -n node -r mode .. reset node\n");
fprintf(stderr
," -n node -u .. move node for +1000\n");
fprintf(stderr
," -n node -d .. move node for -1000\n");
fprintf(stderr
," -a .. current status of the nodes\n");
fprintf(stderr
," -n node -v value -f cmd .. set value of the cmd on the node\n");
fprintf(stderr
," -n node -g cmd .. get value of the cmd on the node\n");
fprintf(stderr
," -n node -m position -s speed .. move node to position at speed (default 10000)\n");
fprintf(stderr
," -l delaysec .. loop test with the delay delaysec\n");
return 0;
}
#ifndef _WINDOWS
int main
(int argc
, char ** argv
){
int i
,j
,k
;
int node
=0,opt
,value
=0;
int EOldPos
=-1;
if ( USMC_Init
( &devices
) ) abort();
while ((opt
= getopt
(argc
, argv
, "i:av:f:l:udn:m:s:v:g:h:r:p:")) != -1) {
switch (opt
) {
case 'i':
usmc_Init
(node
, atoi(optarg
));
break;
case 'a':
printdevices
(devices
);
for (i
=0;i
<devices.
NOD;i
++){
USMC_GetState
(i
,&parstate
[i
]);
printf("%d CurPos %d L%d R%d %s %s\t",i
,
parstate
[i
].
CurPos,parstate
[i
].
Trailer1,parstate
[i
].
Trailer2,
parstate
[i
].
RUN?"Run":"Stopped",parstate
[i
].
Power?"On":"Off" );
USMC_GetParameters
(i
,¶meters
[i
]);
USMC_GetEncoderState
(i
,&parencstate
[i
]);
printf("node %d ECurPos 0x%0x %f EncoderPos =0x%04x %f\n",i
,
parencstate
[i
].
ECurPos, (((parencstate
[i
].
ECurPos)>>5)&0x8FFFFF)/parameters
[i
].
EncMult,
parencstate
[i
].
EncoderPos,((parencstate
[i
].
EncoderPos >> 5)&0x8FFFFF)/parameters
[i
].
EncMult);
}
break;
case 'l':
printf("usmc_MoveTo Loop\n");
for (i
=0;i
<5;i
++){
int xpos
=i
*1000+10000;
usmc_MoveTo
(1, xpos
);
for (j
=0;j
<5;j
++){
int ypos
=j
*1000+10000;
usmc_MoveTo
(2, ypos
);
for (k
=0;k
<50;k
++){
int zpos
=k
*1000+10000;
usmc_MoveTo
(3, zpos
);
printf("x=%d y=%d z=%d\n",xpos
,ypos
,zpos
);
Delay
(atof(optarg
));
}
}
}
break;
case 'n':
node
= atoi(optarg
);
break;
case 's':
usmc_speed
= atoi(optarg
);
break;
case 'p':
usmc_PowerOnOff
(node
,atoi(optarg
));
break;
case 'm':
usmc_MoveTo
(node
, atoi(optarg
));
printf("usmc_MoveTo node=%d pos=%d \n",node
,atoi(optarg
));
break;
case 'v':
value
=atoi(optarg
);
break;
/*
case 'f':
MIKRO_Set (node,optarg,value);
printf("MIKRO_Set node %d cmd=%s val=%d\n",node,optarg, value);
break;
case 'g':
MIKRO_Get (node,optarg,&i);
printf("MIKRO_Get node %d cmd=%s val=%d\n",node,optarg, i);
break;
*/
case 'r':
printf("usmc_Reset node=%d mode=%d\n",node
, atoi(optarg
));
usmc_Reset
(node
, atoi(optarg
));
break;
case 'h':
printf("usmc_ReferenceMove node=%d mode=%d\n",node
, atoi(optarg
));
usmc_ReferenceMove
(node
, atoi(optarg
));
break;
case 'u':
usmc_RelMove
(node
, 1000);
break;
case 'd':
usmc_RelMove
(node
, -1000);
break;
default: /* '?' */
help
();
break;
}
}
if (argc
==1) help
();
USMC_Close
();
#ifdef _WINDOWS
getchar();
#endif
return 0;
}
#endif