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lin-epics-modules:main lin-epics-modules:v1.0 lin-epics-modules:makefile-fixes lin-epics-modules:static-dep
lin-epics-modules:1.1.2 lin-epics-modules:1.1.1 lin-epics-modules:1.0.1 lin-epics-modules:1.1.0 lin-epics-modules:1.0.0 lin-epics-modules:0.8.0 lin-epics-modules:0.7.0 lin-epics-modules:0.6.0 lin-epics-modules:0.5.0 lin-epics-modules:0.4.0 lin-epics-modules:0.3.0 lin-epics-modules:0.2.0 lin-epics-modules:0.1.0
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compare: lin-epics-modules:main
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lin-epics-modules:main lin-epics-modules:v1.0 lin-epics-modules:makefile-fixes lin-epics-modules:static-dep
lin-epics-modules:1.1.2 lin-epics-modules:1.1.1 lin-epics-modules:1.0.1 lin-epics-modules:1.1.0 lin-epics-modules:1.0.0 lin-epics-modules:0.8.0 lin-epics-modules:0.7.0 lin-epics-modules:0.6.0 lin-epics-modules:0.5.0 lin-epics-modules:0.4.0 lin-epics-modules:0.3.0 lin-epics-modules:0.2.0 lin-epics-modules:0.1.0

8 Commits
v1.0 ... main

Author SHA1 Message Date
smathis
9d47cd4e24 Fixed docs 2025-06-18 09:26:32 +02:00
smathis
52fa4e1e78 Updated sinqMotor version 2025-06-18 08:35:00 +02:00
smathis
a9e08460d9 Updated sinqMotor 2025-06-18 08:17:21 +02:00
smathis
37dacbd3ee Updated sinqMotor version and removed unnecessary require 2025-06-17 13:21:59 +02:00
smathis
d198dc8c9f Use axisParam accessor macros 2025-06-17 13:21:55 +02:00
smathis
13f2ec4fbf Switched to macro-based getters and setters for paramLib 2025-06-17 13:21:08 +02:00
mathis_s
6ccb60f263 Merge pull request 'Remove sinqmotor dep, it's statically linked. specify rhel8 arch' (#1) from makefile-fixes into main 
Reviewed-on: #1
 2025-06-11 16:52:42 +02:00
soederqvist_a
b8730e80e0 Remove sinqmotor dep, it's statically linked. specify rhel8 arch 2025-05-28 10:54:59 +02:00
6 changed files with 101 additions and 323 deletions
Expand all files Collapse all files

4
README.md
View File

@ -55,11 +55,11 @@ setMaxSubsequentTimeouts("$(NAME)", 20);
setThresholdComTimeout("$(NAME)", 100, 1); setThresholdComTimeout("$(NAME)", 100, 1);
# Parametrize the EPICS record database with the substitution file named after the MCU. # Parametrize the EPICS record database with the substitution file named after the MCU.
epicsEnvSet("SINQDBPATH","$(sinqMotor_DB)/sinqMotor.db") epicsEnvSet("SINQDBPATH","$(masterMacs_DB)/sinqMotor.db")
dbLoadTemplate("$(TOP)/$(NAME).substitutions", "INSTR=$(INSTR)$(NAME):,CONTROLLER=$(NAME)") dbLoadTemplate("$(TOP)/$(NAME).substitutions", "INSTR=$(INSTR)$(NAME):,CONTROLLER=$(NAME)")
epicsEnvSet("SINQDBPATH","$(masterMacs_DB)/masterMacs.db") epicsEnvSet("SINQDBPATH","$(masterMacs_DB)/masterMacs.db")
dbLoadTemplate("$(TOP)/$(NAME).substitutions", "INSTR=$(INSTR)$(NAME):,CONTROLLER=$(NAME)") dbLoadTemplate("$(TOP)/$(NAME).substitutions", "INSTR=$(INSTR)$(NAME):,CONTROLLER=$(NAME)")
dbLoadRecords("$(sinqMotor_DB)/asynRecord.db","P=$(INSTR)$(NAME),PORT=$(ASYN_PORT)") dbLoadRecords("$(masterMacs_DB)/asynRecord.db","P=$(INSTR)$(NAME),PORT=$(ASYN_PORT)")
``` ```
### Versioning ### Versioning

2
sinqMotor

Submodule sinqMotor updated: c2eca33ce8...55a9fe6f3e

334
src/masterMacsAxis.cpp
View File

@ -363,14 +363,8 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
} }
if (timedOut) { if (timedOut) {
pl_status = setAxisParamChecked(this, motorMessageText,
setStringParam(pC_->motorMessageText(), "Timed out while waiting for a handshake");
"Timed out while waiting for a handshake");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
} }
pC_->read(axisNo_, 86, response); pC_->read(axisNo_, 86, response);
@ -394,32 +388,15 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
// poll. This is already part of the movement procedure. // poll. This is already part of the movement procedure.
*moving = true; *moving = true;
pl_status = setIntegerParam(pC_->motorStatusMoving(), *moving); setAxisParamChecked(this, motorStatusMoving, *moving);
if (pl_status != asynSuccess) { setAxisParamChecked(this, motorStatusDone, !(*moving));
return pC_->paramLibAccessFailed(pl_status,
"motorStatusMoving_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
pl_status = setIntegerParam(pC_->motorStatusDone(), !(*moving));
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusDone_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return asynSuccess; return asynSuccess;
} }
} }
// Motor resolution from parameter library // Motor resolution from parameter library
pl_status = pC_->getDoubleParam(axisNo_, pC_->motorRecResolution(), getAxisParamChecked(this, motorRecResolution, &motorRecResolution);
&motorRecResolution);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorRecResolution_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
// Read the previous motor position // Read the previous motor position
pl_status = motorPosition(&previousPosition); pl_status = motorPosition(&previousPosition);
@ -483,15 +460,9 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
pC_->getMsgPrintControl().getSuffix()); pC_->getMsgPrintControl().getSuffix());
} }
pl_status = setAxisParamChecked(this, motorMessageText,
setStringParam(pC_->motorMessageText(), "Communication error between PC and motor "
"Communication error between PC and motor " "controller. Please call the support.");
"controller. Please call the support.");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
poll_status = asynError; poll_status = asynError;
} else { } else {
@ -643,12 +614,7 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
} }
} }
pl_status = setStringParam(pC_->motorMessageText(), errorMessage); setAxisParamChecked(this, motorMessageText, errorMessage);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
} }
} else { } else {
pC_->getMsgPrintControl().resetCount(keyError, pC_->pasynUser()); pC_->getMsgPrintControl().resetCount(keyError, pC_->pasynUser());
@ -689,40 +655,18 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
directly, but need to shrink them a bit. In this case, we're shrinking directly, but need to shrink them a bit. In this case, we're shrinking
them by 0.1 mm or 0.1 degree (depending on the axis type) on both sides. them by 0.1 mm or 0.1 degree (depending on the axis type) on both sides.
*/ */
pl_status = pC_->getDoubleParam(axisNo_, pC_->motorLimitsOffset(), getAxisParamChecked(this, motorLimitsOffset, &limitsOffset);
&limitsOffset);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorLimitsOffset_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
highLimit = highLimit - limitsOffset; highLimit = highLimit - limitsOffset;
lowLimit = lowLimit + limitsOffset; lowLimit = lowLimit + limitsOffset;
pl_status = pC_->setDoubleParam( setAxisParamChecked(this, motorHighLimitFromDriver, highLimit);
axisNo_, pC_->motorHighLimitFromDriver(), highLimit); setAxisParamChecked(this, motorLowLimitFromDriver, lowLimit);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(
pl_status, "motorHighLimitFromDriver_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
pl_status = pC_->setDoubleParam(axisNo_, pC_->motorLowLimitFromDriver(),
lowLimit);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorLowLimit_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
} }
// Update the enable PV // Update the enable PV
pl_status = setIntegerParam(pC_->motorEnableRBV(), setAxisParamChecked(this, motorEnableRBV,
readyToBeSwitchedOn() && switchedOn()); readyToBeSwitchedOn() && switchedOn());
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorEnableRBV_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
if (*moving) { if (*moving) {
// If the axis is moving, evaluate the movement direction // If the axis is moving, evaluate the movement direction
@ -735,32 +679,11 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
// Update the parameter library // Update the parameter library
if (hasError) { if (hasError) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true); setAxisParamChecked(this, motorStatusProblem, true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
}
pl_status = setIntegerParam(pC_->motorStatusMoving(), *moving);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusMoving_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
pl_status = setIntegerParam(pC_->motorStatusDone(), !(*moving));
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusDone_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
pl_status = setIntegerParam(pC_->motorStatusDirection(), direction);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusDirection_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
} }
setAxisParamChecked(this, motorStatusMoving, *moving);
setAxisParamChecked(this, motorStatusDone, !(*moving));
setAxisParamChecked(this, motorStatusDirection, direction);
pl_status = setMotorPosition(currentPosition); pl_status = setMotorPosition(currentPosition);
if (pl_status != asynSuccess) { if (pl_status != asynSuccess) {
@ -775,10 +698,7 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
double acceleration) { double acceleration) {
// Status of read-write-operations of ASCII commands to the controller // Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess; asynStatus status = asynSuccess;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
char value[pC_->MAXBUF_]; char value[pC_->MAXBUF_];
double motorCoordinatesPosition = 0.0; double motorCoordinatesPosition = 0.0;
@ -789,19 +709,8 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
// ========================================================================= // =========================================================================
pl_status = pC_->getIntegerParam(axisNo_, pC_->motorEnableRBV(), &enabled); getAxisParamChecked(this, motorEnableRBV, &enabled);
if (pl_status != asynSuccess) { getAxisParamChecked(this, motorRecResolution, &motorRecResolution);
return pC_->paramLibAccessFailed(pl_status, "enableMotorRBV_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
pl_status = pC_->getDoubleParam(axisNo_, pC_->motorRecResolution(),
&motorRecResolution);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorRecResolution_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
if (enabled == 0) { if (enabled == 0) {
asynPrint(pC_->pasynUser(), ASYN_TRACE_ERROR, asynPrint(pC_->pasynUser(), ASYN_TRACE_ERROR,
@ -821,24 +730,13 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__, position); pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__, position);
// Check if the speed is allowed to be changed // Check if the speed is allowed to be changed
pl_status = pC_->getIntegerParam(axisNo_, pC_->motorCanSetSpeed(), getAxisParamChecked(this, motorCanSetSpeed, &motorCanSetSpeed);
&motorCanSetSpeed);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorCanSetSpeed_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
// Initialize the movement handshake // Initialize the movement handshake
rw_status = pC_->write(axisNo_, 86, "0"); status = pC_->write(axisNo_, 86, "0");
if (rw_status != asynSuccess) { if (status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true); setAxisParamChecked(this, motorStatusProblem, true);
if (pl_status != asynSuccess) { return status;
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return rw_status;
} }
// Set the new motor speed, if the user is allowed to do so and if the // Set the new motor speed, if the user is allowed to do so and if the
@ -848,15 +746,10 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
pMasterMacsA_->lastSetSpeed = motorVelocity; pMasterMacsA_->lastSetSpeed = motorVelocity;
snprintf(value, sizeof(value), "%lf", motorVelocity); snprintf(value, sizeof(value), "%lf", motorVelocity);
rw_status = pC_->write(axisNo_, 05, value); status = pC_->write(axisNo_, 05, value);
if (rw_status != asynSuccess) { if (status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true); setAxisParamChecked(this, motorStatusProblem, true);
if (pl_status != asynSuccess) { return status;
return pC_->paramLibAccessFailed(pl_status,
"motorStatusProblem_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
return rw_status;
} }
asynPrint(pC_->pasynUser(), ASYN_TRACE_FLOW, asynPrint(pC_->pasynUser(), ASYN_TRACE_FLOW,
@ -868,15 +761,10 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
// Set the target position // Set the target position
snprintf(value, sizeof(value), "%lf", motorCoordinatesPosition); snprintf(value, sizeof(value), "%lf", motorCoordinatesPosition);
rw_status = pC_->write(axisNo_, 02, value); status = pC_->write(axisNo_, 02, value);
if (rw_status != asynSuccess) { if (status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true); setAxisParamChecked(this, motorStatusProblem, true);
if (pl_status != asynSuccess) { return status;
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return rw_status;
} }
// If the motor has just been enabled, use Enable // If the motor has just been enabled, use Enable
@ -888,18 +776,13 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
// Start the move // Start the move
if (relative) { if (relative) {
rw_status = pC_->write(axisNo_, 00, "2", timeout); status = pC_->write(axisNo_, 00, "2", timeout);
} else { } else {
rw_status = pC_->write(axisNo_, 00, "1", timeout); status = pC_->write(axisNo_, 00, "1", timeout);
} }
if (rw_status != asynSuccess) { if (status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true); setAxisParamChecked(this, motorStatusProblem, true);
if (pl_status != asynSuccess) { return status;
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return rw_status;
} }
// In the next poll, we will check if the handshake has been performed in a // In the next poll, we will check if the handshake has been performed in a
@ -913,60 +796,35 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
return asynError; return asynError;
} }
return rw_status; return status;
} }
asynStatus masterMacsAxis::stop(double acceleration) { asynStatus masterMacsAxis::stop(double acceleration) {
// Status of read-write-operations of ASCII commands to the controller asynStatus status = pC_->write(axisNo_, 00, "8");
asynStatus rw_status = asynSuccess; if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
// =========================================================================
rw_status = pC_->write(axisNo_, 00, "8");
if (rw_status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
} }
// Reset the driver to idle state and move out of the handshake wait loop, // Reset the driver to idle state and move out of the handshake wait loop,
// if we're currently inside it. // if we're currently inside it.
pMasterMacsA_->waitForHandshake = false; pMasterMacsA_->waitForHandshake = false;
return rw_status; return status;
} }
asynStatus masterMacsAxis::doReset() { asynStatus masterMacsAxis::doReset() {
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Status of parameter library operations asynStatus status = pC_->write(axisNo_, 17, "");
asynStatus pl_status = asynSuccess; if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
// =========================================================================
rw_status = pC_->write(axisNo_, 17, "");
if (rw_status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
} }
// Reset the driver to idle state and move out of the handshake wait loop, // Reset the driver to idle state and move out of the handshake wait loop,
// if we're currently inside it. // if we're currently inside it.
pMasterMacsA_->waitForHandshake = false; pMasterMacsA_->waitForHandshake = false;
return rw_status; return status;
} }
/* /*
@ -975,41 +833,25 @@ Home the axis. On absolute encoder systems, this is a no-op
asynStatus masterMacsAxis::doHome(double min_velocity, double max_velocity, asynStatus masterMacsAxis::doHome(double min_velocity, double max_velocity,
double acceleration, int forwards) { double acceleration, int forwards) {
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
char response[pC_->MAXBUF_] = {0}; char response[pC_->MAXBUF_] = {0};
// ========================================================================= // =========================================================================
pl_status = pC_->getStringParam(axisNo_, pC_->encoderType(), getAxisParamChecked(this, encoderType, &response);
sizeof(response), response);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "encoderType_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
// Only send the home command if the axis has an incremental encoder // Only send the home command if the axis has an incremental encoder
if (strcmp(response, IncrementalEncoder) == 0) { if (strcmp(response, IncrementalEncoder) == 0) {
// Initialize the movement handshake // Initialize the movement handshake
rw_status = pC_->write(axisNo_, 86, "0"); asynStatus status = pC_->write(axisNo_, 86, "0");
if (rw_status != asynSuccess) { if (status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true); setAxisParamChecked(this, motorStatusProblem, true);
if (pl_status != asynSuccess) { return status;
return pC_->paramLibAccessFailed(pl_status,
"motorStatusProblem_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
return rw_status;
} }
rw_status = pC_->write(axisNo_, 00, "9"); status = pC_->write(axisNo_, 00, "9");
if (rw_status != asynSuccess) { if (status != asynSuccess) {
return rw_status; return status;
} }
// In the next poll, we will check if the handshake has been performed // In the next poll, we will check if the handshake has been performed
@ -1027,12 +869,6 @@ Read the encoder type and update the parameter library accordingly
*/ */
asynStatus masterMacsAxis::readEncoderType() { asynStatus masterMacsAxis::readEncoderType() {
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
char command[pC_->MAXBUF_] = {0}; char command[pC_->MAXBUF_] = {0};
char response[pC_->MAXBUF_] = {0}; char response[pC_->MAXBUF_] = {0};
int nvals = 0; int nvals = 0;
@ -1041,9 +877,9 @@ asynStatus masterMacsAxis::readEncoderType() {
// ========================================================================= // =========================================================================
// Check if this is an absolute encoder // Check if this is an absolute encoder
rw_status = pC_->read(axisNo_, 60, response); asynStatus status = pC_->read(axisNo_, 60, response);
if (rw_status != asynSuccess) { if (status != asynSuccess) {
return rw_status; return status;
} }
nvals = sscanf(response, "%d", &encoder_id); nvals = sscanf(response, "%d", &encoder_id);
@ -1059,28 +895,18 @@ asynStatus masterMacsAxis::readEncoderType() {
2=SSI (Absolute encoder with BiSS interface) 2=SSI (Absolute encoder with BiSS interface)
*/ */
if (encoder_id == 0) { if (encoder_id == 0) {
pl_status = setStringParam(pC_->encoderType(), IncrementalEncoder); setAxisParamChecked(this, encoderType, IncrementalEncoder);
} else { } else {
pl_status = setStringParam(pC_->encoderType(), AbsoluteEncoder); setAxisParamChecked(this, encoderType, AbsoluteEncoder);
} }
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "encoderType_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
return asynSuccess; return asynSuccess;
} }
asynStatus masterMacsAxis::enable(bool on) { asynStatus masterMacsAxis::enable(bool on) {
int timeout_enable_disable = 2; int timeout_enable_disable = 2;
char value[pC_->MAXBUF_]; char msg[pC_->MAXBUF_];
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
// ========================================================================= // =========================================================================
@ -1110,14 +936,8 @@ asynStatus masterMacsAxis::enable(bool on) {
"idle and can therefore not be disabled.\n", "idle and can therefore not be disabled.\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__); pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__);
pl_status = setAxisParamChecked(this, motorMessageText,
setStringParam(pC_->motorMessageText(), "Axis cannot be disabled while it is moving.");
"Axis cannot be disabled while it is moving.");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return asynError; return asynError;
} }
@ -1135,7 +955,7 @@ asynStatus masterMacsAxis::enable(bool on) {
} }
// Enable / disable the axis if it is not moving // Enable / disable the axis if it is not moving
snprintf(value, sizeof(value), "%d", on); snprintf(msg, sizeof(msg), "%d", on);
asynPrint(pC_->pasynUser(), ASYN_TRACE_FLOW, asynPrint(pC_->pasynUser(), ASYN_TRACE_FLOW,
"Controller \"%s\", axis %d => %s, line %d:\n%s axis.\n", "Controller \"%s\", axis %d => %s, line %d:\n%s axis.\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__, pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__,
@ -1150,9 +970,9 @@ asynStatus masterMacsAxis::enable(bool on) {
timeout = PowerCycleTimeout; timeout = PowerCycleTimeout;
} }
rw_status = pC_->write(axisNo_, 04, value, timeout); asynStatus status = pC_->write(axisNo_, 04, msg, timeout);
if (rw_status != asynSuccess) { if (status != asynSuccess) {
return rw_status; return status;
} }
// Query the axis status every few milliseconds until the axis has been // Query the axis status every few milliseconds until the axis has been
@ -1162,9 +982,9 @@ asynStatus masterMacsAxis::enable(bool on) {
// Read the axis status // Read the axis status
usleep(100000); usleep(100000);
rw_status = readAxisStatus(); status = readAxisStatus();
if (rw_status != asynSuccess) { if (status != asynSuccess) {
return rw_status; return status;
} }
if (switchedOn() == on) { if (switchedOn() == on) {
@ -1184,14 +1004,10 @@ asynStatus masterMacsAxis::enable(bool on) {
on ? "enable" : "disable", timeout_enable_disable); on ? "enable" : "disable", timeout_enable_disable);
// Output message to user // Output message to user
snprintf(value, sizeof(value), "Failed to %s within %d seconds", snprintf(msg, sizeof(msg), "Failed to %s within %d seconds",
on ? "enable" : "disable", timeout_enable_disable); on ? "enable" : "disable", timeout_enable_disable);
pl_status = setStringParam(pC_->motorMessageText(), value);
if (pl_status != asynSuccess) { setAxisParamChecked(this, motorMessageText, msg);
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return asynError; return asynError;
} }

11
src/masterMacsAxis.h
View File

@ -1,13 +1,9 @@
#ifndef masterMacsAXIS_H #ifndef masterMacsAXIS_H
#define masterMacsAXIS_H #define masterMacsAXIS_H
#include "masterMacsController.h"
#include "sinqAxis.h" #include "sinqAxis.h"
#include <memory> #include <memory>
// Forward declaration of the controller class to resolve the cyclic dependency
// between the controller and the axis .h-file. See
// https://en.cppreference.com/w/cpp/language/class.
class masterMacsController;
struct masterMacsAxisImpl; struct masterMacsAxisImpl;
class masterMacsAxis : public sinqAxis { class masterMacsAxis : public sinqAxis {
@ -122,7 +118,10 @@ class masterMacsAxis : public sinqAxis {
*/ */
void setNeedInit(bool needInit); void setNeedInit(bool needInit);
asynStatus readConfig(); /**
* @brief Return a pointer to the axis controller
*/
virtual masterMacsController *pController() override { return pC_; };
/** /**
* @brief Read the Master MACS status with the xR10 command and store the * @brief Read the Master MACS status with the xR10 command and store the

67
src/masterMacsController.cpp
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@ -136,7 +136,6 @@ asynStatus masterMacsController::writeRead(int axisNo, int tcpCmd,
// Definition of local variables. // Definition of local variables.
asynStatus status = asynSuccess; asynStatus status = asynSuccess;
asynStatus pl_status = asynSuccess;
char fullCommand[MAXBUF_] = {0}; char fullCommand[MAXBUF_] = {0};
char fullResponse[MAXBUF_] = {0}; char fullResponse[MAXBUF_] = {0};
char drvMessageText[MAXBUF_] = {0}; char drvMessageText[MAXBUF_] = {0};
@ -255,7 +254,7 @@ asynStatus masterMacsController::writeRead(int axisNo, int tcpCmd,
// Log the overall status (communication successfull or not) // Log the overall status (communication successfull or not)
if (status == asynSuccess) { if (status == asynSuccess) {
pl_status = axis->setIntegerParam(this->motorStatusCommsError_, 0); setAxisParamChecked(axis, motorStatusCommsError, false);
} else { } else {
/* /*
@ -274,35 +273,12 @@ asynStatus masterMacsController::writeRead(int axisNo, int tcpCmd,
the user with different error messages if more than one error the user with different error messages if more than one error
ocurred before an error-free communication ocurred before an error-free communication
*/ */
pl_status = getAxisParamChecked(axis, motorStatusProblem, &motorStatusProblem);
getIntegerParam(axisNo, motorStatusProblem_, &motorStatusProblem);
if (pl_status != asynSuccess) {
return paramLibAccessFailed(pl_status, "motorStatusProblem", axisNo,
__PRETTY_FUNCTION__, __LINE__);
}
if (motorStatusProblem == 0) { if (motorStatusProblem == 0) {
pl_status = setAxisParamChecked(axis, motorMessageText, drvMessageText);
axis->setStringParam(motorMessageText(), drvMessageText); setAxisParamChecked(axis, motorStatusProblem, true);
if (pl_status != asynSuccess) { setAxisParamChecked(axis, motorStatusCommsError, false);
return paramLibAccessFailed(pl_status, "motorMessageText",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
}
pl_status = axis->setIntegerParam(motorStatusProblem_, 1);
if (pl_status != asynSuccess) {
return paramLibAccessFailed(pl_status, "motorStatusProblem",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
}
pl_status = axis->setIntegerParam(motorStatusProblem_, 1);
if (pl_status != asynSuccess) {
return paramLibAccessFailed(pl_status, "motorStatusCommsError_",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
}
} }
} }
@ -332,13 +308,14 @@ asynStatus masterMacsController::parseResponse(
msgPrintControlKey parseKey = msgPrintControlKey parseKey =
msgPrintControlKey(portName, axisNo, __PRETTY_FUNCTION__, __LINE__); msgPrintControlKey(portName, axisNo, __PRETTY_FUNCTION__, __LINE__);
// Was the motor previously connected? masterMacsAxis *axis = getMasterMacsAxis(axisNo);
status = getIntegerParam(axisNo, motorConnected(), &prevConnected); if (axis == nullptr) {
if (status != asynSuccess) { return asynError;
return paramLibAccessFailed(status, "motorConnected", axisNo,
__PRETTY_FUNCTION__, __LINE__);
} }
// Was the motor previously connected?
getAxisParamChecked(axis, motorConnected, &prevConnected);
// We don't use strlen here since the C string terminator 0x00 // We don't use strlen here since the C string terminator 0x00
// occurs in the middle of the char array. // occurs in the middle of the char array.
for (uint32_t i = 0; i < MAXBUF_; i++) { for (uint32_t i = 0; i < MAXBUF_; i++) {
@ -361,16 +338,7 @@ asynStatus masterMacsController::parseResponse(
"connected.\n", "connected.\n",
portName, axisNo, __PRETTY_FUNCTION__, __LINE__); portName, axisNo, __PRETTY_FUNCTION__, __LINE__);
masterMacsAxis *axis = getMasterMacsAxis(axisNo); setAxisParamChecked(axis, motorConnected, true);
if (axis == nullptr) {
return asynError;
}
status = axis->setIntegerParam(motorConnected(), 1);
if (status != asynSuccess) {
return paramLibAccessFailed(status, "motorConnected",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
}
status = callParamCallbacks(); status = callParamCallbacks();
if (status != asynSuccess) { if (status != asynSuccess) {
asynPrint(this->pasynUserSelf, ASYN_TRACE_ERROR, asynPrint(this->pasynUserSelf, ASYN_TRACE_ERROR,
@ -398,16 +366,7 @@ asynStatus masterMacsController::parseResponse(
"disconnected.\n", "disconnected.\n",
portName, axisNo, __PRETTY_FUNCTION__, __LINE__); portName, axisNo, __PRETTY_FUNCTION__, __LINE__);
masterMacsAxis *axis = getMasterMacsAxis(axisNo); setAxisParamChecked(axis, motorConnected, false);
if (axis == nullptr) {
return asynError;
}
status = axis->setIntegerParam(motorConnected(), 0);
if (status != asynSuccess) {
return paramLibAccessFailed(status, "motorConnected",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
}
status = callParamCallbacks(); status = callParamCallbacks();
if (status != asynSuccess) { if (status != asynSuccess) {
asynPrint(this->pasynUserSelf, ASYN_TRACE_ERROR, asynPrint(this->pasynUserSelf, ASYN_TRACE_ERROR,

6
src/masterMacsController.h
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@ -8,11 +8,15 @@
#ifndef masterMacsController_H #ifndef masterMacsController_H
#define masterMacsController_H #define masterMacsController_H
#include "masterMacsAxis.h"
#include "sinqAxis.h" #include "sinqAxis.h"
#include "sinqController.h" #include "sinqController.h"
#include <memory> #include <memory>
// Forward declaration of the controller class to resolve the cyclic dependency
// between the controller and the axis .h-file. See
// https://en.cppreference.com/w/cpp/language/class.
class masterMacsAxis;
struct masterMacsControllerImpl; struct masterMacsControllerImpl;
class masterMacsController : public sinqController { class masterMacsController : public sinqController {