Remove files accidentally added in rev 3071

D    site_ansto/hardsup/oldsct_modbusprot.c
D    site_ansto/hardsup/libhlib.a
D    site_ansto/instrument/deploySICS.sh.new
D    site_ansto/instrument/reflectometer/config/beamline/old_polanal.tcl
D    site_ansto/instrument/reflectometer/config/beamline/old_sct_RFGen.tcl
D    .cproject
D    cscope.out
D    tags
D    psi/hardsup/libhlib.a
D    psi/tecs/libtecsl.a

r3234 | ffr | 2011-07-24 13:13:46 +1000 (Sun, 24 Jul 2011) | 13 lines

site_ansto/instrument/reflectometer/config/beamline/old_polanal.tcl

@@ -1,32 +0,0 @@
-fileeval $cfPath(beamline)/sct_RFGen.tcl
-
-# NOTE: opCurr is 10 * your operating current, ie if the current is 7.1 then opCurr = 71
-::scobj::rfgen::mkRFGen {
-  name "polarizer_flipper"
-  address 1
-  opCurr 71
-  opFreq 407
-  IP 137.157.202.149
-  PORT 4001
-  tuning 1
-  interval 2
-  currtol 1
-  compCurr 1
-  guideCurr 1
-  thickness 1
-}
-
-::scobj::rfgen::mkRFGen {
-  name "analyzer_flipper"
-  address 9
-  opCurr 71
-  opFreq 407
-  IP 137.157.202.149
-  PORT 4002
-  tuning 1
-  interval 2
-  currtol 1
-  compCurr 1
-  guideCurr 1
-  thickness 1
-}

site_ansto/instrument/reflectometer/config/beamline/old_sct_RFGen.tcl

@@ -1,419 +0,0 @@
-##
-# @file Mirrotron RF Generator control
-#
-# Author: Ferdi Franceschini (ffr@ansto.gov.au) May 2010
-#
-# The controller can be installed with the following command,
-# ::scobj::rfgen::mkRFGen {
-#   name "anal"
-#   address 1
-#   opCurr 68
-#   opFreq 241
-#   IP localhost
-#   PORT 65123
-#   tuning 1
-#   currtol 1
-#   interval 2
-# } 
-#
-# NOTE:
-# If tuning=1 this will generate xxx/set_current and xxx/set_frequency
-# nodes for the instrument scientists.
-# The tuning parameter should be set to 0 for the users.
-#
-# The operation_manual_Platypus_polarization_system.doc:Sec 3.1 states the following
-# Attention
-# a)	Do not switch on the RF output with non-zero current setting (the current
-# control becomes unstable)! If unsure, rotate the current setting
-# potentiometer 10 turns counter-clockwise.
-# b)	In case of RF vacuum discharge (harmful for the system)
-# "	the main symptom is that the RF power source turns into CV mode, the
-# voltage increases to 34 Vem and the current decreases;
-# "	switch off the RF output;
-# "	decrease current setting by rotating the potentiometer 10 turns counter-clockwise;
-# "	verify the vacuum level in the tank and restart the flipper operation only if it is below 0.01 mbar.   
-
-namespace eval ::scobj::rfgen {
-# Control states
-  variable RAMPIDLE        0
-  variable RAMPSTOP        1
-  variable RAMPSTART       2
-  variable RAMPBUSY        3
-  variable RAMPTOZERO      4
-  variable FLIPOFF         5
-  variable MAXVOLTAGE     34
-}
-
-##
-# @brief Utility for trimming zero padding from current and frequency readings.
-#        We do this to avoid misinterpreting numbers as octal
-proc ::scobj::rfgen::mkStatArr {stateArrName stateReport} {
-  upvar $stateArrName stateArr
-  array set stateArr $stateReport
-
-  if {$stateArr(curr) != 0} {
-    set val [string trimleft $stateArr(curr) 0]
-    if {[string is integer $val]} {
-      set stateArr(curr) $val
-    } else {
-      set stateArr(curr) -1
-    }
-  }
-  if {$stateArr(freq) != 0} {
-    set val [string trimleft $stateArr(freq) 0]
-    if {[string is integer $val]} {
-      set stateArr(freq) $val
-    } else {
-      set stateArr(freq) -1
-    }
-  }
-  if {$stateArr(voltage) != 0} {
-    set val [string trimleft $stateArr(voltage) 0]
-    if {[string is integer $val]} {
-      set stateArr(voltage) $val
-    } else {
-      set stateArr(voltage) -1
-    }
-  }
-}
-
-##
-# @brief Switch the generator on or off
-proc ::scobj::rfgen::switch_on {basePath} {
-  variable RAMPSTART
-  variable RAMPTOZERO
-
-  set genState [sct target]
-  switch $genState {
-    "0" {
-      hsetprop  $basePath targetCurr 0
-      hsetprop  $basePath OutputState 0
-      hsetprop  $basePath ramping $RAMPSTART
-      sct update 0
-      sct utime updatetime
-    }
-    "1" {
-      hsetprop  $basePath targetCurr [hgetpropval $basePath opCurr]
-      hsetprop  $basePath targetFreq [hgetpropval $basePath opFreq]
-      hsetprop  $basePath OutputState 1
-      hsetprop  $basePath ramping $RAMPSTART
-      sct update 1
-      sct utime updatetime
-    }
-    default {
-      set ErrMsg "[sct] invalid input $genState, Valid states for [sct] are 1 or 0"
-      sct seterror "ERROR: $ErrMsg"
-      return -code error $ErrMsg
-    }
-  }
-  return idle
-}
-
-##
-# @brief Get the target current and scale it for the RF generator.
-#        Also updates the operating current for this session.
-#
-# @param basePath, The object base-path, this is where we keep our state variables.
-proc ::scobj::rfgen::set_current {basePath} {
-  variable RAMPSTART
-
-  set newCurr [sct target]
-  
-  set current [expr {round(10.0 * $newCurr)}]
-  hsetprop $basePath targetCurr $current
-  hsetprop $basePath opCurr $current
-  hsetprop $basePath ramping $RAMPSTART
-  hsetprop $basePath OutputState 1
-  return idle
-}
-
-##
-# @brief Get the target frequency. Also updates the operating frequency for this session.
-#
-# @param basePath, The object base-path, this is where we keep our state variables.
-proc ::scobj::rfgen::set_frequency {basePath} {
-  variable RAMPSTART
-
-  set newFreq [sct target]
-  
-  hsetprop $basePath targetFreq $newFreq
-  hsetprop $basePath opFreq $newFreq
-  hsetprop $basePath ramping $RAMPSTART
-  hsetprop $basePath OutputState 1
-  return idle
-}
-
-##
-# @brief Request a state report from the RF generator
-proc ::scobj::rfgen::rqStatFunc {} {
-  sct send "L:[sct address]"
-  return rdState
-}
-
-##
-# @brief Read and record the state report from the RF generator
-proc ::scobj::rfgen::rdStatFunc {} {
-  variable RAMPBUSY
-  variable RAMPSTART
-  variable RAMPTOZERO
-  variable RAMPIDLE
-  variable FLIPOFF
-  variable MAXVOLTAGE
-
-  set basePath [sct]
-
-  set currSuperState [sct ramping]
-  set updateFlipper 0
-  set statStr [sct result]
-  if {[string match "ASCERR:*" $statStr]} {
-    sct geterror $statStr
-    sct ramping $RAMPIDLE
-    return stateChange
-  }
-  set statList [split $statStr "|="]
-  foreach {k v} $statList {
-    if {$k == "type"} {
-      lappend temp "$k $v"
-      continue
-    }
-    if {[string is integer $v]} {
-      lappend temp "$k $v"
-    } else {
-      lappend temp "$k -1"
-    }
-  }
-  set statList [join $temp]
-  mkStatArr stateArr $statList
-
-  if {$statList != [sct oldStateRep]} { 
-    hset $basePath/flip_current [expr {$stateArr(curr) / 10.0}]
-    hset $basePath/flip_frequency $stateArr(freq) 
-    hset $basePath/flip_voltage $stateArr(voltage) 
-    hset $basePath/flip_on $stateArr(O) 
-    hset $basePath/state_report $statList
-    sct update $statList
-    sct utime updatetime
-    sct oldStateRep $statList
-  }
-  if {$currSuperState != $FLIPOFF && $stateArr(curr) > [sct currTol] && $stateArr(O) && $stateArr(CV)} {
-    broadcast "WARNING: RF generator has switched to voltage control, voltage = $stateArr(voltage)"
-    if {$stateArr(voltage) >= $MAXVOLTAGE} {
-      sct ramping $FLIPOFF
-    }
-  }
-
-  return stateChange
-}
-
-##
-# @brief State transition function
-proc ::scobj::rfgen::stateFunc {} {
-  variable RAMPIDLE 
-  variable RAMPSTOP 
-  variable RAMPSTART
-  variable RAMPBUSY 
-  variable RAMPTOZERO
-  variable FLIPOFF
-  variable MAXVOLTAGE
-
-  set basePath [sct]
-
-  set currSuperState [sct ramping]
-  mkStatArr stateArr [hval $basePath/state_report]
-  set currControlStatus [sct status]
-
-  
-  switch $currSuperState [ subst -nocommands {
-    $RAMPSTART {
-#     broadcast RAMPSTART
-      if [string match $currControlStatus "IDLE"] {
-        statemon start flipper
-        sct status "BUSY"
-        sct ramping $RAMPBUSY
-        return ramp
-      } else {
-        # Flipper is off, set current to zero before switching on
-        sct origTargetCurr [sct targetCurr]
-        sct targetCurr 0
-        sct OutputState 0
-        sct ramping $RAMPTOZERO
-        return ramp
-      }
-    }
-    $RAMPTOZERO {
-#     broadcast RAMPTOZERO
-      if {$stateArr(curr) <= [sct currTol]} {
-        # We've reached a safe state so switch on and ramp to target current
-        sct targetCurr [sct origTargetCurr]
-        sct OutputState 1
-        sct ramping $RAMPBUSY
-      } else {
-        sct targetCurr 0
-        sct OutputState 0
-      }
-      return ramp
-    }
-    $RAMPBUSY {
-#     broadcast RAMPBUSY
-      if { [expr {abs($stateArr(curr) - [sct targetCurr])}] <= [sct currTol] } {
-        sct ramping $RAMPSTOP
-        return idle
-      }
-      return ramp
-    }
-    $FLIPOFF {
-      sct targetCurr 0
-      sct OutputState 0
-      if { $stateArr(curr) <= [sct currTol] } {
-        sct ramping $RAMPSTOP
-        broadcast "ERROR: Spin flipper switched off voltage exceeds $MAXVOLTAGE in voltage control state, check vacuum"
-        return idle
-      } else {
-        return ramp
-      }
-    }
-    $RAMPSTOP {
-#     broadcast RAMPSTOP
-      if [string match $currControlStatus "BUSY"] {
-        statemon stop flipper
-        sct status "IDLE"
-      }
-      sct ramping $RAMPIDLE
-      return idle
-    }
-    $RAMPIDLE {
-#     broadcast RAMPIDLE
-      return idle
-    }
-  }]
-}
-
-##
-# @brief Ramps the current up or down in steps of 0.5A and/or sets the frequency
-proc ::scobj::rfgen::rampFunc {} {
-  set basePath [sct]
-  set currSuperState [sct ramping]
-  mkStatArr stateArr [hval $basePath/state_report]
-
-  set targetCurr [sct targetCurr]
-  set targetFreq [sct targetFreq]
-  set output [sct OutputState]
-
-  if { [expr {abs($stateArr(curr) - [sct targetCurr])}] <= [sct currTol] } {
-    set curr $stateArr(curr)
-  } elseif {$targetCurr < $stateArr(curr)} {
-    set curr [expr $stateArr(curr)-5]
-    if {$curr < $targetCurr} {
-      set curr $targetCurr
-    }
-  } elseif {$targetCurr > $stateArr(curr)} {
-    set curr [expr $stateArr(curr)+5]
-    if {$curr > $targetCurr} {
-      set curr $targetCurr
-    }
-  }
-  set reply [$SCT_RFGEN send "S:[sct address]:I=$curr:F=$targetFreq:K3=$stateArr(K3):K2=$stateArr(K2):K1=$stateArr(K1):O=$output"]
-
-  return idle
-}
-
-
-##
-# @brief Make an RF generator control object
-# 
-# @param argList,  {name "analyser" address "1" opCurr 68 opFreq 241 IP localhost PORT 65123 tuning 0 interval 1} 
-#
-# name: name of RF generator object
-# address: address assigned to RF generator 1-9
-# opCurr: the operating current, when you switch it on it will ramp to this current
-# opFreq: the operating frequency, when you switch it on it will set this frequency
-# IP: IP address of RF generator moxa box
-# PORT: Port number assigned to the generator on the moxa-box
-# tuning: boolean, set tuning=1 to allow instrument scientists to set the current and frequency
-# interval: polling and ramping interval in seconds. One sets the ramp rate to 0.5A/s
-proc ::scobj::rfgen::mkRFGen {argList} {
-  variable RAMPIDLE
-
-# Generate parameter array from the argument list
-  foreach {k v} $argList {
-    set KEY [string toupper $k]
-      set pa($KEY) $v
-  }
-
-  MakeSICSObj $pa(NAME) SCT_OBJECT
-  sicslist setatt $pa(NAME) klass instrument
-  sicslist setatt $pa(NAME) long_name $pa(NAME)
-
-# hfactory /sics/$pa(NAME)/status plain spy text
-  hsetprop /sics/$pa(NAME) status "IDLE"
-  hfactory /sics/$pa(NAME)/state_report plain internal text
-  hfactory /sics/$pa(NAME)/flip_current plain internal float
-  hfactory /sics/$pa(NAME)/flip_frequency plain internal int
-  hfactory /sics/$pa(NAME)/flip_voltage plain internal int
-  hfactory /sics/$pa(NAME)/flip_on plain internal int
-
-  hsetprop /sics/$pa(NAME) read ::scobj::rfgen::rqStatFunc 
-  hsetprop /sics/$pa(NAME) rdState ::scobj::rfgen::rdStatFunc
-  hsetprop /sics/$pa(NAME) stateChange ::scobj::rfgen::stateFunc
-  hsetprop /sics/$pa(NAME) ramp ::scobj::rfgen::rampFunc
-
-  hsetprop /sics/$pa(NAME) address $pa(ADDRESS)
-  hsetprop /sics/$pa(NAME) tuning $pa(TUNING)
-  hsetprop /sics/$pa(NAME) ramping $RAMPIDLE
-  hsetprop /sics/$pa(NAME) opCurr $pa(OPCURR)
-  hsetprop /sics/$pa(NAME) opFreq $pa(OPFREQ)
-  hsetprop /sics/$pa(NAME) targetCurr 0
-  hsetprop /sics/$pa(NAME) origTargetCurr 0
-  hsetprop /sics/$pa(NAME) oldStateRep ""
-
-  hsetprop /sics/$pa(NAME) currTol $pa(CURRTOL)
-
-  hfactory /sics/$pa(NAME)/comp_current plain internal float
-  hsetprop /sics/$pa(NAME)/comp_current units "A"
-  hset /sics/$pa(NAME)/comp_current $pa(COMPCURR)
-  hfactory /sics/$pa(NAME)/guide_current plain internal float
-  hsetprop /sics/$pa(NAME)/guide_current units "A"
-  hset /sics/$pa(NAME)/guide_current $pa(GUIDECURR)
-  hfactory /sics/$pa(NAME)/thickness plain internal float
-  hsetprop /sics/$pa(NAME)/thickness units "mm"
-  hset /sics/$pa(NAME)/thickness $pa(THICKNESS)
-
-  hfactory /sics/$pa(NAME)/switch_on plain user int
-  hsetprop /sics/$pa(NAME)/switch_on write ::scobj::rfgen::switch_on /sics/$pa(NAME)
-# Only create the set current and frequency nodes when commissioning
-
-  # Initialise properties required for generating the API for GumTree and to save data
-  ::scobj::hinitprops $pa(NAME) flip_current flip_frequency flip_voltage flip_on comp_current guide_current thickness
-  hsetprop /sics/$pa(NAME)/comp_current mutable false
-  hsetprop /sics/$pa(NAME)/guide_current mutable false
-  hsetprop /sics/$pa(NAME)/thickness mutable false
-
-  if {[SplitReply [rfgen_simulation]] == "false"} {
-  set SCT_RFGEN sct_rfgen_$pa(NAME)
-  makesctcontroller $SCT_RFGEN rfamp $pa(IP):$pa(PORT)
-  mkStatArr stateArr [split [$SCT_RFGEN transact "L:$pa(ADDRESS)"] "|="]
-  
-  hset /sics/$pa(NAME)/flip_current [expr {$stateArr(curr) / 10.0}]
-  hset /sics/$pa(NAME)/flip_frequency $stateArr(freq) 
-  hset /sics/$pa(NAME)/flip_voltage $stateArr(voltage) 
-  hset /sics/$pa(NAME)/flip_on $stateArr(O)
-  hsetprop /sics/$pa(NAME) targetFreq $stateArr(freq) 
-  hsetprop /sics/$pa(NAME) targetCurr [expr {$stateArr(curr) / 10.0}]
-
-  $SCT_RFGEN poll /sics/$pa(NAME) $pa(INTERVAL)
-  $SCT_RFGEN write /sics/$pa(NAME)/switch_on
-  }
-
-  if {$pa(TUNING)} {
-    hfactory /sics/$pa(NAME)/set_current plain user float
-    hfactory /sics/$pa(NAME)/set_frequency plain user int
-
-    hsetprop /sics/$pa(NAME)/set_current write ::scobj::rfgen::set_current /sics/$pa(NAME)
-    hsetprop /sics/$pa(NAME)/set_frequency write ::scobj::rfgen::set_frequency /sics/$pa(NAME)
-
-    if {[SplitReply [rfgen_simulation]] == "false"} {
-      $SCT_RFGEN write /sics/$pa(NAME)/set_current
-      $SCT_RFGEN write /sics/$pa(NAME)/set_frequency
-    }
-  }
-}