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Wrap generated driver code in 'catch' and handle_exception blocks

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This commit is contained in:
Douglas Clowes
2014-03-18 14:57:43 +11:00
parent 94e2e06f22
commit 2db71ba537
2 changed files with 725 additions and 345 deletions
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758
site_ansto/instrument/config/environment/sct_hiden_xcs.tcl
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@ -7,106 +7,121 @@ namespace eval ::scobj::hiden_xcs {
}
proc ::scobj::hiden_xcs::debug_log {debug_level debug_string} {
if {${debug_level} >= ${::scobj::hiden_xcs::debug_threshold}} {
set fd [open "/tmp/hiden_xcs.log" "a"]
set line "[clock format [clock seconds] -format "%T"] ${debug_string}"
puts ${fd} "${line}"
close ${fd}
}
set catch_status [ catch {
if {${debug_level} >= ${::scobj::hiden_xcs::debug_threshold}} {
set fd [open "/tmp/hiden_xcs.log" "a"]
set line "[clock format [clock seconds] -format "%T"] ${debug_string}"
puts ${fd} "${line}"
close ${fd}
}
} catch_message ]
}
# checklimits function for driveable interface
proc ::scobj::hiden_xcs::checklimits {tc_root} {
debug_log 1 "checklimits tc_root=${tc_root} sct=[sct] target=[sct target]"
set setpoint [sct target]
if { [hpropexists [sct] lowerlimit] } {
set lolimit [sct lowerlimit]
} else {
# lowerlimit not set, use target
set lolimit [sct target]
}
if { [hpropexists [sct] upperlimit] } {
set hilimit [sct upperlimit]
} else {
# upperlimit not set, use target
set hilimit [sct target]
}
if { ${setpoint} < ${lolimit} || ${setpoint} > ${hilimit} } {
sct driving 0
error "setpoint ${setpoint} violates limits (${lolimit}..${hilimit}) on [sct]"
}
return OK
set catch_status [ catch {
debug_log 1 "checklimits tc_root=${tc_root} sct=[sct] target=[sct target]"
set setpoint [sct target]
if { [hpropexists [sct] lowerlimit] } {
set lolimit [sct lowerlimit]
} else {
# lowerlimit not set, use target
set lolimit [sct target]
}
if { [hpropexists [sct] upperlimit] } {
set hilimit [sct upperlimit]
} else {
# upperlimit not set, use target
set hilimit [sct target]
}
if { ${setpoint} < ${lolimit} || ${setpoint} > ${hilimit} } {
sct driving 0
error "setpoint ${setpoint} violates limits (${lolimit}..${hilimit}) on [sct]"
}
return OK
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# check function for hset change
proc ::scobj::hiden_xcs::checkrange {tc_root} {
debug_log 1 "checkrange tc_root=${tc_root} sct=[sct] target=[sct target]"
set setpoint [sct target]
if { [hpropexists [sct] lowerlimit] } {
set lolimit [sct lowerlimit]
} else {
# lowerlimit not set, use target
set lolimit [sct target]
}
if { [hpropexists [sct] upperlimit] } {
set hilimit [sct upperlimit]
} else {
# upperlimit not set, use target
set hilimit [sct target]
}
if { ${setpoint} < ${lolimit} || ${setpoint} > ${hilimit} } {
error "setpoint ${setpoint} violates limits (${lolimit}..${hilimit}) on [sct]"
}
return OK
set catch_status [ catch {
debug_log 1 "checkrange tc_root=${tc_root} sct=[sct] target=[sct target]"
set setpoint [sct target]
if { [hpropexists [sct] lowerlimit] } {
set lolimit [sct lowerlimit]
} else {
# lowerlimit not set, use target
set lolimit [sct target]
}
if { [hpropexists [sct] upperlimit] } {
set hilimit [sct upperlimit]
} else {
# upperlimit not set, use target
set hilimit [sct target]
}
if { ${setpoint} < ${lolimit} || ${setpoint} > ${hilimit} } {
error "setpoint ${setpoint} violates limits (${lolimit}..${hilimit}) on [sct]"
}
return OK
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# checkstatus function for driveable interface
proc ::scobj::hiden_xcs::checkstatus {tc_root} {
if {[sct driving]} {
set sp "[sct target]"
set pv "[hval ${tc_root}/[sct driveable]]"
if { ${pv} > ${sp} - [sct tolerance] && ${pv} < ${sp} + [sct tolerance] } {
sct driving 0
set catch_status [ catch {
if {[sct driving]} {
set sp "[sct target]"
set pv "[hval ${tc_root}/[sct driveable]]"
if { ${pv} > ${sp} - [sct tolerance] && ${pv} < ${sp} + [sct tolerance] } {
sct driving 0
return "idle"
}
return "busy"
} else {
return "idle"
}
return "busy"
} else {
return "idle"
}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# check function for hset change
proc ::scobj::hiden_xcs::chkrange_function {tc_root} {
debug_log 1 "chkrange_function tc_root=${tc_root} sct=[sct] target=[sct target]"
set setpoint [sct target]
if { [hpropexists [sct] lowerlimit] } {
set lolimit [sct lowerlimit]
} else {
# lowerlimit not set, use target
set lolimit [sct target]
}
if { [hpropexists [sct] upperlimit] } {
set hilimit [sct upperlimit]
} else {
# upperlimit not set, use target
set hilimit [sct target]
}
set catch_status [ catch {
debug_log 1 "chkrange_function tc_root=${tc_root} sct=[sct] target=[sct target]"
set setpoint [sct target]
if { [hpropexists [sct] lowerlimit] } {
set lolimit [sct lowerlimit]
} else {
# lowerlimit not set, use target
set lolimit [sct target]
}
if { [hpropexists [sct] upperlimit] } {
set hilimit [sct upperlimit]
} else {
# upperlimit not set, use target
set hilimit [sct target]
}
# hook code starts
# hooked
# hook code ends
if { ${setpoint} < ${lolimit} || ${setpoint} > ${hilimit} } {
error "setpoint ${setpoint} violates limits (${lolimit}..${hilimit}) on [sct]"
}
return OK
if { ${setpoint} < ${lolimit} || ${setpoint} > ${hilimit} } {
error "setpoint ${setpoint} violates limits (${lolimit}..${hilimit}) on [sct]"
}
return OK
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to request the read of a parameter on a device
proc ::scobj::hiden_xcs::fetch_flow {tc_root nextState cmd_str} {
debug_log 1 "fetch_flow tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set cmd "${cmd_str}"
set catch_status [ catch {
debug_log 1 "fetch_flow tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set cmd "${cmd_str}"
# hook code starts
set data 0.0
set targets 0.0
@ -132,116 +147,137 @@ proc ::scobj::hiden_xcs::fetch_flow {tc_root nextState cmd_str} {
}
return ${nextState}
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
return -code error "[sct geterror]"
}
debug_log 1 "fetch_flow sct send ${cmd}"
sct send "${cmd}"
return ${nextState}
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
debug_log 1 "fetch_flow sct send ${cmd}"
sct send "${cmd}"
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to request the read of a parameter on a device
proc ::scobj::hiden_xcs::getValue {tc_root nextState cmd_str} {
debug_log 1 "getValue tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set cmd "${cmd_str}"
debug_log 1 "getValue sct send ${cmd}"
sct send "${cmd}"
return ${nextState}
set catch_status [ catch {
debug_log 1 "getValue tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set cmd "${cmd_str}"
debug_log 1 "getValue sct send ${cmd}"
sct send "${cmd}"
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# halt function for driveable interface
proc ::scobj::hiden_xcs::halt {tc_root} {
debug_log 1 "halt tc_root=${tc_root} sct=[sct] driving=[sct driving]"
### TODO hset [sct] [hval [sct]]
sct driving 0
return "idle"
set catch_status [ catch {
debug_log 1 "halt tc_root=${tc_root} sct=[sct] driving=[sct driving]"
### TODO hset [sct] [hval [sct]]
sct driving 0
return "idle"
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to check the write parameter on a device
proc ::scobj::hiden_xcs::noResponse {tc_root} {
debug_log 1 "noResponse tc_root=${tc_root} sct=[sct] resp=[sct result]"
return "idle"
set catch_status [ catch {
debug_log 1 "noResponse tc_root=${tc_root} sct=[sct] resp=[sct result]"
return "idle"
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# pid function for PID control
proc ::scobj::hiden_xcs::pid_flow {tc_root sp pv} {
debug_log 1 "pid_flow tc_root=${tc_root} sct=[sct] pv=${pv} sp=${sp}"
sct pid_error [expr ${sp} - ${pv}]
set p_value [expr [sct pid_pvalue] * [sct pid_error]]
set d_value [expr [sct pid_dvalue] * (${pv} - [sct oldval])]
sct pid_deriv [sct pid_error]
sct pid_integ [expr [sct pid_integ] + [sct pid_error]]
if { [sct pid_integ] > [sct pid_imax] } {
sct pid_integ [sct pid_imax]
}
if { [sct pid_integ] < -[sct pid_imax] } {
sct pid_integ -[sct pid_imax]
}
set i_value [expr [sct pid_ivalue] * [sct pid_integ]]
set pid [expr ${p_value} + ${i_value} + ${d_value}]
sct pid_output ${pid}
set catch_status [ catch {
debug_log 1 "pid_flow tc_root=${tc_root} sct=[sct] pv=${pv} sp=${sp}"
sct pid_error [expr ${sp} - ${pv}]
set p_value [expr [sct pid_pvalue] * [sct pid_error]]
set d_value [expr [sct pid_dvalue] * (${pv} - [sct oldval])]
sct pid_deriv [sct pid_error]
sct pid_integ [expr [sct pid_integ] + [sct pid_error]]
if { [sct pid_integ] > [sct pid_imax] } {
sct pid_integ [sct pid_imax]
}
if { [sct pid_integ] < -[sct pid_imax] } {
sct pid_integ -[sct pid_imax]
}
set i_value [expr [sct pid_ivalue] * [sct pid_integ]]
set pid [expr ${p_value} + ${i_value} + ${d_value}]
sct pid_output ${pid}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
return ${pid}
}
# pid function for PID control
proc ::scobj::hiden_xcs::pid_humidity {tc_root sp pv} {
debug_log 1 "pid_humidity tc_root=${tc_root} sct=[sct] pv=${pv} sp=${sp}"
sct pid_error [expr ${sp} - ${pv}]
set p_value [expr [sct pid_pvalue] * [sct pid_error]]
set d_value [expr [sct pid_dvalue] * (${pv} - [sct oldval])]
sct pid_deriv [sct pid_error]
sct pid_integ [expr [sct pid_integ] + [sct pid_error]]
if { [sct pid_integ] > [sct pid_imax] } {
sct pid_integ [sct pid_imax]
}
if { [sct pid_integ] < -[sct pid_imax] } {
sct pid_integ -[sct pid_imax]
}
set i_value [expr [sct pid_ivalue] * [sct pid_integ]]
set pid [expr ${p_value} + ${i_value} + ${d_value}]
sct pid_output ${pid}
set catch_status [ catch {
debug_log 1 "pid_humidity tc_root=${tc_root} sct=[sct] pv=${pv} sp=${sp}"
sct pid_error [expr ${sp} - ${pv}]
set p_value [expr [sct pid_pvalue] * [sct pid_error]]
set d_value [expr [sct pid_dvalue] * (${pv} - [sct oldval])]
sct pid_deriv [sct pid_error]
sct pid_integ [expr [sct pid_integ] + [sct pid_error]]
if { [sct pid_integ] > [sct pid_imax] } {
sct pid_integ [sct pid_imax]
}
if { [sct pid_integ] < -[sct pid_imax] } {
sct pid_integ -[sct pid_imax]
}
set i_value [expr [sct pid_ivalue] * [sct pid_integ]]
set pid [expr ${p_value} + ${i_value} + ${d_value}]
sct pid_output ${pid}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
return ${pid}
}
# function to parse the read of a parameter on a device
proc ::scobj::hiden_xcs::rdValue {tc_root} {
debug_log 1 "rdValue tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
return -code error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
set catch_status [ catch {
debug_log 1 "rdValue tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
return ${nextState}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to parse the read of a parameter on a device
proc ::scobj::hiden_xcs::read_all_data {tc_root} {
debug_log 1 "read_all_data tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
return -code error "[sct geterror]"
}
set catch_status [ catch {
debug_log 1 "read_all_data tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
error "[sct geterror]"
}
# hook code starts
if { [string equal -nocase -length 2 "${data}" "A "] } {
set data_list [split [string range "${data}" 2 end-3] ',']
@ -271,32 +307,35 @@ proc ::scobj::hiden_xcs::read_all_data {tc_root} {
}
}
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
return -code error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
return ${nextState}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to parse the read of a parameter on a device
proc ::scobj::hiden_xcs::read_digital {tc_root} {
debug_log 1 "read_digital tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
return -code error "[sct geterror]"
}
set catch_status [ catch {
debug_log 1 "read_digital tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
error "[sct geterror]"
}
# hook code starts
if { [string equal -nocase -length 5 "${data}" "DOUT ="] } {
set result [scan "${data}" "DOUT = %d OK" val]
@ -309,54 +348,60 @@ proc ::scobj::hiden_xcs::read_digital {tc_root} {
sct geterror "Syntax error in: '${data}'"
}
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
return -code error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
return ${nextState}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to parse the read of a parameter on a device
proc ::scobj::hiden_xcs::read_flow {tc_root} {
debug_log 1 "read_flow tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
return -code error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
set catch_status [ catch {
debug_log 1 "read_flow tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
return ${nextState}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to parse the read of a parameter on a device
proc ::scobj::hiden_xcs::read_sixteen {tc_root} {
debug_log 1 "read_sixteen tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
return -code error "[sct geterror]"
}
set catch_status [ catch {
debug_log 1 "read_sixteen tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
error "[sct geterror]"
}
# hook code starts
if { [string equal -nocase -length 5 "${data}" "AIN ="] } {
set result [scan "${data}" "AIN = %d OK" val]
@ -379,32 +424,35 @@ proc ::scobj::hiden_xcs::read_sixteen {tc_root} {
sct geterror "Syntax error in: '${data}'"
}
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
return -code error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
return ${nextState}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to parse the read of a parameter on a device
proc ::scobj::hiden_xcs::read_twelve {tc_root} {
debug_log 1 "read_twelve tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
return -code error "[sct geterror]"
}
set catch_status [ catch {
debug_log 1 "read_twelve tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
error "[sct geterror]"
}
# hook code starts
if { [string equal -nocase -length 5 "${data}" "AOUT ="] } {
set result [scan "${data}" "AOUT = %d OK" val]
@ -427,67 +475,76 @@ proc ::scobj::hiden_xcs::read_twelve {tc_root} {
sct geterror "Syntax error in: '${data}'"
}
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
return -code error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
return ${nextState}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to write a parameter value on a device
proc ::scobj::hiden_xcs::setValue {tc_root nextState cmd_str} {
debug_log 1 "setValue tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
set catch_status [ catch {
debug_log 1 "setValue tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
}
debug_log 1 "setValue sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
set par [sct target]
set cmd "${cmd_str}${par}"
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
}
}
debug_log 1 "setValue sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to write a parameter value on a device
proc ::scobj::hiden_xcs::write_digital {tc_root nextState cmd_str} {
debug_log 1 "write_digital tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
set catch_status [ catch {
debug_log 1 "write_digital tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
}
debug_log 1 "write_digital sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
set par [sct target]
set cmd "${cmd_str}${par}"
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
}
}
debug_log 1 "write_digital sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to write a parameter value on a device
proc ::scobj::hiden_xcs::write_flow {tc_root nextState cmd_str} {
debug_log 1 "write_flow tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
set catch_status [ catch {
debug_log 1 "write_flow tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
# hook code starts
if { [hpropexists ${tc_root}/humidity target] } {
set humidity_target [hgetpropval ${tc_root}/humidity target]
@ -500,30 +557,33 @@ proc ::scobj::hiden_xcs::write_flow {tc_root nextState cmd_str} {
hset ${tc_root}/analog/sp2 ${flow2_target}
set cmd "@@NOSEND@@"
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
return -code error "[sct geterror]"
}
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
}
debug_log 1 "write_flow sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
}
}
debug_log 1 "write_flow sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to write a parameter value on a device
proc ::scobj::hiden_xcs::write_humidity {tc_root nextState cmd_str} {
debug_log 1 "write_humidity tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
set catch_status [ catch {
debug_log 1 "write_humidity tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
# hook code starts
if { [hpropexists ${tc_root}/flow target] } {
set flow_target [hgetpropval ${tc_root}/flow target]
@ -536,30 +596,33 @@ proc ::scobj::hiden_xcs::write_humidity {tc_root nextState cmd_str} {
hset ${tc_root}/analog/sp2 ${flow2_target}
set cmd "@@NOSEND@@"
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
return -code error "[sct geterror]"
}
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
}
debug_log 1 "write_humidity sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
}
}
debug_log 1 "write_humidity sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to write a parameter value on a device
proc ::scobj::hiden_xcs::write_twelve {tc_root nextState cmd_str} {
debug_log 1 "write_twelve tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
set catch_status [ catch {
debug_log 1 "write_twelve tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
# hook code starts
if { [hpropexists [sct] base] } {
set base [sct base]
@ -586,20 +649,22 @@ proc ::scobj::hiden_xcs::write_twelve {tc_root nextState cmd_str} {
set par [expr int(${base} + (4095.0 * ${par} / ${span}))]
set cmd "${cmd_str}${par}"
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
return -code error "[sct geterror]"
}
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
}
debug_log 1 "write_twelve sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
}
}
debug_log 1 "write_twelve sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
proc ::scobj::hiden_xcs::mk_sct_hiden_xcs { sct_controller name tol } {
@ -884,7 +949,7 @@ proc ::scobj::hiden_xcs::mk_sct_hiden_xcs { sct_controller name tol } {
# hook code starts
# hook code ends
} catch_message ]
handle_exception ${catch_status} ${catch_message} "in ${ns}::mk_sct_hiden_xcs"
handle_exception ${catch_status} ${catch_message}
}
namespace eval ::scobj::hiden_xcs {
@ -893,20 +958,23 @@ namespace eval ::scobj::hiden_xcs {
}
proc add_hiden_xcs {name IP port terminator {tol 0.5}} {
set ns "::scobj::hiden_xcs"
${ns}::debug_log 1 "add_hiden_xcs ${name} ${IP} ${port}"
if {[SplitReply [environment_simulation]]=="false"} {
if {[string equal -nocase "aqadapter" "${IP}"]} {
${ns}::debug_log 1 "makesctcontroller sct_${name} aqadapter ${port}"
makesctcontroller sct_${name} aqadapter ${port}
} else {
${ns}::debug_log 1 "makesctcontroller sct_${name} std ${IP}:${port} ${terminator}"
makesctcontroller sct_${name} std ${IP}:${port} ${terminator}
set catch_status [ catch {
set ns "::scobj::hiden_xcs"
${ns}::debug_log 1 "add_hiden_xcs ${name} ${IP} ${port}"
if {[SplitReply [environment_simulation]]=="false"} {
if {[string equal -nocase "aqadapter" "${IP}"]} {
${ns}::debug_log 1 "makesctcontroller sct_${name} aqadapter ${port}"
makesctcontroller sct_${name} aqadapter ${port}
} else {
${ns}::debug_log 1 "makesctcontroller sct_${name} std ${IP}:${port} ${terminator}"
makesctcontroller sct_${name} std ${IP}:${port} ${terminator}
}
}
}
${ns}::debug_log 1 "mk_sct_hiden_xcs sct_${name} ${name} ${tol}"
${ns}::mk_sct_hiden_xcs sct_${name} ${name} ${tol}
close ${fd}
${ns}::debug_log 1 "mk_sct_hiden_xcs sct_${name} ${name} ${tol}"
${ns}::mk_sct_hiden_xcs sct_${name} ${name} ${tol}
close ${fd}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
puts stdout "file evaluation of sct_hiden_xcs.tcl"

312
site_ansto/instrument/config/environment/sct_isotech_ps.tcl Normal file
View File

@ -0,0 +1,312 @@
# Generated driver for isotech_ps
# vim: tabstop=8 softtabstop=2 shiftwidth=2 nocindent smartindent
#
namespace eval ::scobj::isotech_ps {
set debug_threshold 0
}
proc ::scobj::isotech_ps::debug_log {debug_level debug_string} {
set catch_status [ catch {
if {${debug_level} >= ${::scobj::isotech_ps::debug_threshold}} {
set fd [open "/tmp/isotech_ps.log" "a"]
set line "[clock format [clock seconds] -format "%T"] ${debug_string}"
puts ${fd} "${line}"
close ${fd}
}
} catch_message ]
}
# check function for hset change
proc ::scobj::isotech_ps::checkrange {tc_root} {
set catch_status [ catch {
debug_log 1 "checkrange tc_root=${tc_root} sct=[sct] target=[sct target]"
set setpoint [sct target]
if { [hpropexists [sct] lowerlimit] } {
set lolimit [sct lowerlimit]
} else {
# lowerlimit not set, use target
set lolimit [sct target]
}
if { [hpropexists [sct] upperlimit] } {
set hilimit [sct upperlimit]
} else {
# upperlimit not set, use target
set hilimit [sct target]
}
if { ${setpoint} < ${lolimit} || ${setpoint} > ${hilimit} } {
error "setpoint ${setpoint} violates limits (${lolimit}..${hilimit}) on [sct]"
}
return OK
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to request the read of a parameter on a device
proc ::scobj::isotech_ps::getValue {tc_root nextState cmd_str} {
set catch_status [ catch {
debug_log 1 "getValue tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set cmd "${cmd_str}"
debug_log 1 "getValue sct send ${cmd}"
sct send "${cmd}"
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to check the write parameter on a device
proc ::scobj::isotech_ps::noResponse {tc_root} {
set catch_status [ catch {
debug_log 1 "noResponse tc_root=${tc_root} sct=[sct] resp=[sct result]"
return "idle"
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to parse the read of a parameter on a device
proc ::scobj::isotech_ps::rdValue {tc_root} {
set catch_status [ catch {
debug_log 1 "rdValue tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
error "[sct geterror]"
}
# hook code starts
set data [string range [sct result] 1 end]
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to parse the read of a parameter on a device
proc ::scobj::isotech_ps::read_relay {tc_root} {
set catch_status [ catch {
debug_log 1 "read_relay tc_root=${tc_root} sct=[sct] result=[sct result]"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set data [sct result]
set nextState "idle"
if {[string equal -nocase -length 7 ${data} "ASCERR:"]} {
# the protocol driver has reported an error
sct geterror "${data}"
error "[sct geterror]"
}
# hook code starts
if { [string equal -nocase -length 2 "F1" "${data}"] } {
set data 1
} elseif { [string equal -nocase -length 2 "F0" "${data}"] } {
set data 0
} else {
sct geterror "Unexpected response '${data}' not 'F1' nor 'F0'"
}
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
if { ${data} != [sct oldval] } {
debug_log 1 "[sct] changed to new:${data}, from old:[sct oldval]"
sct oldval ${data}
sct update ${data}
sct utime readtime
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to write a parameter value on a device
proc ::scobj::isotech_ps::setValue {tc_root nextState cmd_str} {
set catch_status [ catch {
debug_log 1 "setValue tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
}
}
debug_log 1 "setValue sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to write a parameter value on a device
proc ::scobj::isotech_ps::write_relay {tc_root nextState cmd_str} {
set catch_status [ catch {
debug_log 1 "write_relay tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
# hook code starts
if { ${par} == 0 } {
set cmd "KOD"
} else {
set cmd "KOE"
}
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
}
}
debug_log 1 "write_relay sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
# function to write a parameter value on a device
proc ::scobj::isotech_ps::write_voltage {tc_root nextState cmd_str} {
set catch_status [ catch {
debug_log 1 "write_voltage tc_root=${tc_root} sct=[sct] cmd=${cmd_str}"
if { [hpropexists [sct] geterror] } {
hdelprop [sct] geterror
}
set par [sct target]
set cmd "${cmd_str}${par}"
# hook code starts
set par "[format "%05.2f" [sct target]]"
set cmd "SV ${par}"
# hook code ends
if { [hpropexists [sct] geterror] } {
debug_log 1 "[sct] error: [sct geterror]"
error "[sct geterror]"
}
if { [hpropexists [sct] driving] } {
if { [hpropexists [sct] writestatus] && [sct writestatus] == "start" } {
sct driving 1
}
}
debug_log 1 "write_voltage sct send ${cmd}"
if {![string equal -nocase -length 10 ${cmd} "@@NOSEND@@"]} {
sct send "${cmd}"
}
return ${nextState}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
proc ::scobj::isotech_ps::mk_sct_isotech_ps { sct_controller name } {
debug_log 1 "mk_sct_isotech_ps for ${name}"
set ns "[namespace current]"
set catch_status [ catch {
MakeSICSObj ${name} SCT_OBJECT
sicslist setatt ${name} klass environment
sicslist setatt ${name} long_name ${name}
set scobj_hpath /sics/${name}
hfactory ${scobj_hpath}/amps plain user float
hsetprop ${scobj_hpath}/amps read ${ns}::getValue ${scobj_hpath} rdValue {A}
hsetprop ${scobj_hpath}/amps rdValue ${ns}::rdValue ${scobj_hpath}
hsetprop ${scobj_hpath}/amps control true
hsetprop ${scobj_hpath}/amps data true
hsetprop ${scobj_hpath}/amps mutable true
hsetprop ${scobj_hpath}/amps nxsave true
hsetprop ${scobj_hpath}/amps units A
hsetprop ${scobj_hpath}/amps oldval 0.0
hfactory ${scobj_hpath}/relay plain user int
hsetprop ${scobj_hpath}/relay read ${ns}::getValue ${scobj_hpath} read_relay {F}
hsetprop ${scobj_hpath}/relay read_relay ${ns}::read_relay ${scobj_hpath}
hsetprop ${scobj_hpath}/relay write ${ns}::write_relay ${scobj_hpath} noResponse {KO}
hsetprop ${scobj_hpath}/relay noResponse ${ns}::noResponse ${scobj_hpath}
hsetprop ${scobj_hpath}/relay check ${ns}::checkrange ${scobj_hpath}
hsetprop ${scobj_hpath}/relay control true
hsetprop ${scobj_hpath}/relay data true
hsetprop ${scobj_hpath}/relay mutable true
hsetprop ${scobj_hpath}/relay nxsave true
hsetprop ${scobj_hpath}/relay oldval 0
hfactory ${scobj_hpath}/volts plain user float
hsetprop ${scobj_hpath}/volts read ${ns}::getValue ${scobj_hpath} rdValue {V}
hsetprop ${scobj_hpath}/volts rdValue ${ns}::rdValue ${scobj_hpath}
hsetprop ${scobj_hpath}/volts write ${ns}::write_voltage ${scobj_hpath} noResponse {SV}
hsetprop ${scobj_hpath}/volts noResponse ${ns}::noResponse ${scobj_hpath}
hsetprop ${scobj_hpath}/volts check ${ns}::checkrange ${scobj_hpath}
hsetprop ${scobj_hpath}/volts control true
hsetprop ${scobj_hpath}/volts data true
hsetprop ${scobj_hpath}/volts mutable true
hsetprop ${scobj_hpath}/volts nxsave true
hsetprop ${scobj_hpath}/volts units V
hsetprop ${scobj_hpath}/volts oldval 0.0
if {[SplitReply [environment_simulation]]=="false"} {
${sct_controller} poll ${scobj_hpath}/amps 5
${sct_controller} poll ${scobj_hpath}/relay 5
${sct_controller} poll ${scobj_hpath}/volts 5
${sct_controller} write ${scobj_hpath}/relay
${sct_controller} write ${scobj_hpath}/volts
}
hsetprop ${scobj_hpath} klass environment
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
namespace eval ::scobj::isotech_ps {
namespace export debug_log
namespace export mk_sct_isotech_ps
}
proc add_isotech_ps {name IP port} {
set catch_status [ catch {
set ns "::scobj::isotech_ps"
${ns}::debug_log 1 "add_isotech_ps ${name} ${IP} ${port}"
if {[SplitReply [environment_simulation]]=="false"} {
if {[string equal -nocase "aqadapter" "${IP}"]} {
${ns}::debug_log 1 "makesctcontroller sct_${name} aqadapter ${port}"
makesctcontroller sct_${name} aqadapter ${port}
} else {
${ns}::debug_log 1 "makesctcontroller sct_${name} std ${IP}:${port} \"\\r\""
makesctcontroller sct_${name} std ${IP}:${port} "\r"
}
}
${ns}::debug_log 1 "mk_sct_isotech_ps sct_${name} ${name}"
${ns}::mk_sct_isotech_ps sct_${name} ${name}
close ${fd}
} catch_message ]
handle_exception ${catch_status} ${catch_message}
}
puts stdout "file evaluation of sct_isotech_ps.tcl"
::scobj::isotech_ps::debug_log 1 "file evaluation of sct_isotech_ps.tcl"