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Simplified handling of velocity mode using standard EPICS motor record fields
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This commit is contained in:
mathis_s
2026-02-03 17:57:00 +01:00
parent 4634609891
commit 56d9d20c3a
2 changed files with 126 additions and 65 deletions
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183
src/masterMacsAxis.cpp
View File

@@ -11,6 +11,11 @@
#include <string.h>
#include <unistd.h>
enum moveMode {
positionMode,
velocityMode,
};
struct masterMacsAxisImpl {
/*
The axis status and axis error of MasterMACS are given as an integer from
@@ -24,6 +29,9 @@ struct masterMacsAxisImpl {
bool needInit = true;
bool targetReachedUninitialized;
bool dynamicLimits;
bool canPositionMove;
bool canVelocityMove;
moveMode lastMoveCommand;
};
/*
@@ -94,6 +102,9 @@ masterMacsAxis::masterMacsAxis(masterMacsController *pC, int axisNo)
.timeAtHandshake = 0,
.targetReachedUninitialized = true,
.dynamicLimits = false,
.canPositionMove = true,
.canVelocityMove = false,
.lastMoveCommand = positionMode,
})) {
asynStatus status = asynSuccess;
@@ -190,9 +201,8 @@ asynStatus masterMacsAxis::init() {
double motVelocity = 0.0;
double motVmax = 0.0;
double motAccel = 0.0;
int motMode = 0;
int dynamicLimits = 0;
int motCanSetMode = 0;
int possibleModes = 0;
// =========================================================================
@@ -306,36 +316,38 @@ asynStatus masterMacsAxis::init() {
}
pMasterMacsA_->dynamicLimits = bool(dynamicLimits);
// Check the current motor mode
status = pC_->read(axisNo_, 07, response);
if (status != asynSuccess) {
return status;
}
nvals = sscanf(response, "%d", &motMode);
if (nvals != 1) {
return pC_->couldNotParseResponse("R07", response, axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
// If the readback value from the controller is 3, it is in velocity mode,
// which sinqMotor encodes as a 1. Otherwise, it is in position mode.
setAxisParamChecked(this, motorMode, motMode == 3);
// Check if the motor can switch its mode
status = pC_->read(axisNo_, 31, response);
if (status != asynSuccess) {
return status;
}
nvals = sscanf(response, "%d", &motCanSetMode);
nvals = sscanf(response, "%d", &possibleModes);
if (nvals != 1) {
return pC_->couldNotParseResponse("R31", response, axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
// If the readback value from the controller is 3, the motor supports both
// velocity and position mode, otherwise just one of them (the one read out
// with motMode).
setAxisParamChecked(this, motorCanSetMode, motCanSetMode == 3);
switch (possibleModes) {
case 1:
pMasterMacsA_->canPositionMove = true;
pMasterMacsA_->canVelocityMove = false;
break;
case 2:
pMasterMacsA_->canPositionMove = false;
pMasterMacsA_->canVelocityMove = true;
break;
case 3:
pMasterMacsA_->canPositionMove = true;
pMasterMacsA_->canVelocityMove = true;
break;
default:
asynPrint(pC_->pasynUser(), ASYN_TRACE_ERROR,
"Controller \"%s\", axis %d => %s, line "
"%d:\nunexpected answer %d for R31 (possible operation "
"modes). Expected one of 1, 2 or 3.\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__,
possibleModes);
}
status = readEncoderType();
if (status != asynSuccess) {
@@ -432,10 +444,10 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
asynStatus poll_status = asynSuccess;
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
asynStatus rwStatus = asynSuccess;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
asynStatus plStatus = asynSuccess;
char response[pC_->MAXBUF_] = {0};
int nvals = 0;
@@ -446,6 +458,7 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
double previousPosition = 0.0;
double motorRecResolution = 0.0;
double handshakePerformed = 0;
double actualVelocity = 0.0;
// =========================================================================
@@ -484,8 +497,8 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
}
pC_->read(axisNo_, 86, response);
if (rw_status != asynSuccess) {
return rw_status;
if (rwStatus != asynSuccess) {
return rwStatus;
}
nvals = sscanf(response, "%lf", &handshakePerformed);
@@ -511,15 +524,15 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
getAxisParamChecked(this, motorRecResolution, &motorRecResolution);
// Read the previous motor position
pl_status = motorPosition(&previousPosition);
if (pl_status != asynSuccess) {
return pl_status;
plStatus = motorPosition(&previousPosition);
if (plStatus != asynSuccess) {
return plStatus;
}
// Update the axis status
rw_status = readAxisStatus();
if (rw_status != asynSuccess) {
return rw_status;
rwStatus = readAxisStatus();
if (rwStatus != asynSuccess) {
return rwStatus;
}
// If we wait for a handshake, but the motor was moving in its last poll
@@ -539,23 +552,37 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
pMasterMacsA_->targetReachedUninitialized = false;
}
// Read the current position
rw_status = pC_->read(axisNo_, 12, response);
if (rw_status != asynSuccess) {
return rw_status;
}
nvals = sscanf(response, "%lf", &currentPosition);
if (nvals != 1) {
return pC_->couldNotParseResponse("R12", response, axisNo_,
__PRETTY_FUNCTION__, __LINE__);
// If moving in velocity mode, read out the current speed. Otherwise, read
// out the current position
if (pMasterMacsA_->lastMoveCommand == velocityMode && *moving) {
rwStatus = pC_->read(axisNo_, 14, response);
if (rwStatus != asynSuccess) {
return rwStatus;
}
nvals = sscanf(response, "%lf", &actualVelocity);
if (nvals != 1) {
return pC_->couldNotParseResponse("R14", response, axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
} else {
rwStatus = pC_->read(axisNo_, 12, response);
if (rwStatus != asynSuccess) {
return rwStatus;
}
nvals = sscanf(response, "%lf", &currentPosition);
if (nvals != 1) {
return pC_->couldNotParseResponse("R12", response, axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
}
/*
Read out the error if either a fault condition status flag has been set or
if a movement has just ended.
Read out the error if either a fault condition status flag has been set
or if a movement has just ended.
*/
if (faultConditionSet() || !(*moving)) {
rw_status = readAxisError();
rwStatus = readAxisError();
}
msgPrintControlKey keyError = msgPrintControlKey(
@@ -735,9 +762,9 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
// Read out the limits, if the motor is not moving and if the limits are
// dynamic
if (pMasterMacsA_->dynamicLimits && !(*moving)) {
rw_status = readLimits();
if (rw_status != asynSuccess) {
return rw_status;
rwStatus = readLimits();
if (rwStatus != asynSuccess) {
return rwStatus;
}
}
@@ -762,16 +789,19 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
setAxisParamChecked(this, motorStatusDone, !(*moving));
setAxisParamChecked(this, motorStatusDirection, direction);
pl_status = setMotorPosition(currentPosition);
if (pl_status != asynSuccess) {
return pl_status;
plStatus = setMotorPosition(currentPosition);
if (plStatus != asynSuccess) {
return plStatus;
}
// Write the actual velocity to the paramLib
setAxisParamChecked(this, motorVelocity, actualVelocity);
return poll_status;
}
asynStatus masterMacsAxis::doMoveVelocity(double minVelocity,
double maxVelocity,
double acceleration) {
asynStatus masterMacsAxis::moveVelocity(double minVelocity, double maxVelocity,
double acceleration) {
// Suppress unused variable warning
(void)minVelocity;
(void)acceleration;
@@ -787,6 +817,18 @@ asynStatus masterMacsAxis::doMoveVelocity(double minVelocity,
// =========================================================================
// Can the motor be operated in velocity mode?
if (!pMasterMacsA_->canVelocityMove) {
asynPrint(pC_->pasynUser(), ASYN_TRACE_ERROR,
"Controller \"%s\", axis %d => %s, line %d:\nAxis cannot "
"operate in velocity mode.\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__);
setAxisParamChecked(this, motorStatusProblem, true);
setAxisParamChecked(this, motorMessageText,
"cannot operate in velocity mode");
return asynError;
}
getAxisParamChecked(this, motorEnableRBV, &enabled);
getAxisParamChecked(this, motorRecResolution, &motorRecResolution);
@@ -822,7 +864,14 @@ asynStatus masterMacsAxis::doMoveVelocity(double minVelocity,
// Start the move. We do not use the MovTimeout watchdog here, because the
// motor can move for any time in velocity mode.
return pC_->write(axisNo_, 00, "3", timeout);
status = pC_->write(axisNo_, 00, "3", timeout);
if (status != asynSuccess) {
return status;
}
// Cache the information that the current movement is in velocity mode
pMasterMacsA_->lastMoveCommand = velocityMode;
return status;
}
asynStatus masterMacsAxis::doMove(double position, int relative,
@@ -845,6 +894,18 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
// =========================================================================
// Can the motor be operated in position mode?
if (!pMasterMacsA_->canPositionMove) {
asynPrint(pC_->pasynUser(), ASYN_TRACE_ERROR,
"Controller \"%s\", axis %d => %s, line %d:\nAxis cannot "
"operate in position mode.\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__);
setAxisParamChecked(this, motorStatusProblem, true);
setAxisParamChecked(this, motorMessageText,
"cannot operate in position mode");
return asynError;
}
getAxisParamChecked(this, motorEnableRBV, &enabled);
getAxisParamChecked(this, motorRecResolution, &motorRecResolution);
@@ -930,6 +991,8 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
return asynError;
}
// Cache the information that the current movement is in position mode
pMasterMacsA_->lastMoveCommand = positionMode;
return status;
}
@@ -1230,8 +1293,8 @@ asynStatus masterMacsAxis::readAxisStatus() {
// =========================================================================
asynStatus rw_status = pC_->read(axisNo_, 10, response);
if (rw_status == asynSuccess) {
asynStatus rwStatus = pC_->read(axisNo_, 10, response);
if (rwStatus == asynSuccess) {
float axisStatus = 0;
int nvals = sscanf(response, "%f", &axisStatus);
@@ -1243,7 +1306,7 @@ asynStatus masterMacsAxis::readAxisStatus() {
pMasterMacsA_->axisStatus = toBitset(axisStatus);
}
return rw_status;
return rwStatus;
}
asynStatus masterMacsAxis::readAxisError() {
@@ -1251,8 +1314,8 @@ asynStatus masterMacsAxis::readAxisError() {
// =========================================================================
asynStatus rw_status = pC_->read(axisNo_, 11, response);
if (rw_status == asynSuccess) {
asynStatus rwStatus = pC_->read(axisNo_, 11, response);
if (rwStatus == asynSuccess) {
float axisError = 0;
int nvals = sscanf(response, "%f", &axisError);
@@ -1262,7 +1325,7 @@ asynStatus masterMacsAxis::readAxisError() {
}
pMasterMacsA_->axisError = toBitset(axisError);
}
return rw_status;
return rwStatus;
}
bool masterMacsAxis::readyToBeSwitchedOn() {

8
src/masterMacsAxis.h
View File

@@ -52,17 +52,15 @@ class HIDDEN masterMacsAxis : public sinqAxis {
asynStatus doPoll(bool *moving);
/**
* @brief Implementation of the `doMoveVelocity` function from sinqAxis. The
* parameters are described in the documentation of
* `sinqAxis::doMoveVelocity`.
* @brief TODO
*
* @param minVelocity
* @param maxVelocity
* @param acceleration
* @return asynStatus
*/
asynStatus doMoveVelocity(double minVelocity, double maxVelocity,
double acceleration);
asynStatus moveVelocity(double minVelocity, double maxVelocity,
double acceleration);
/**
* @brief Implementation of the `doMove` function from sinqAxis. The