Added to repository.

r986 | ffr | 2006-05-09 09:17:15 +1000 (Tue, 09 May 2006) | 2 lines

site_ansto/Makefile

@@ -0,0 +1,103 @@
+# vim: ft=make ts=4 sw=4 noet cindent
+#---------------------------------------------------------------------------
+# Makefile for SICS
+# machine-dependent part for Redhat Linux with AFS at PSI
+#
+# Mark Koennecke 1996-2001
+# Markus Zolliker, March 2003
+#==========================================================================
+
+include ../linux_def
+# TODO Should use PSI ../make_gen instead of make_gen_variables
+include make_gen_variables
+
+# PSI rules and variables
+EXTRA=nintf.o
+PSI_CLEAN_MATRIX = rm -f ../*.o; $(MAKE) -C ../matrix $(MFLAGS) clean
+PSI_CFLAGS = -I./ -I$(HDFROOT)/include -DHDF5 \
+       -fwritable-strings -DCYGNUS -DNONINTF -g $(DFORTIFY)
+PSI_SLIBS = matrix/libmatrix.a
+PSI_LIBS =  -L$(HDFROOT)/lib $(NILIB)\
+       -ltcl8.4 $(HDFROOT)/lib/libhdf5.a  \
+       -ldl -lz  -lm  -lc 
+
+../%.o : ../%.c
+	cd ..; $(CC) -c $(PSI_CFLAGS) $*.c -o $*.o
+
+../matrix/libmatrix.a: 
+	make -C ../matrix $(MFLAGS) libmatrix.a
+
+# ANSTO rules and variables
+CC       = gcc
+CFLAGS = -g -Ihardsup  -I..  -Wno-unused -Wno-comment -Wno-switch -Werror 
+HDFROOT=/usr/local
+
+SRC = ./../..
+SITENAME = _ansto
+SITEDIR  = site_ansto
+SITELIB  = libansto.a
+SITEHARDSUP = hardsup/libhlib.a
+HARDSUPDIR = $(SITEDIR)/hardsup
+SUBLIBS = libansto.a hardsup/libhlib.a
+VPATH = $(SRC)
+	TANGOROOT = /usr/local/lib/
+	OMNIORBROOT = /usr/local/lib
+COREDIR  = $(SRC)
+
+.SUFFIXES: 
+.SUFFIXES: .c .o .f
+
+TANGOLIBS = \
+			/usr/local/lib/libclient.a \
+			/usr/local/lib/liblog4tango.a \
+			/usr/local/lib/libtango.a \
+			/usr/local/lib/libomniDynamic4.a \
+			/usr/local/lib/libomniORB4.a \
+			/usr/local/lib/libomnithread.a
+
+#OBJ= site_ansto.o batch.o buffer.o ruli.o protocol.o sinfox.o \
+#        motor_asim.o motor_dmc2280.o motor_pdx.o \
+#        itc4.o itc4driv.o \
+#        hm_mrpd.o scan_mrpd.o
+
+OBJ= site_ansto.o \
+        motor_asim.o motor_dmc2280.o\
+        lh45.o lh45driv.o \
+        lakeshore340.o lakeshore340driv.o \
+        ../psi/tcpdocho.o ../psi/tcpdornier.o
+
+all: ../matrix/libmatrix.a $(COREOBJ:%=../%) libansto.a libhardsup
+	$(CC) -g -o SICServer  $(COREOBJ:%=../%) $(SUBLIBS) $(PSI_SLIBS:%=../%) $(PSI_LIBS) 
+
+libansto.a: $(OBJ)
+	rm -f libansto.a
+	ar cr libansto.a $(OBJ)
+	ranlib libansto.a
+
+libhardsup:
+	$(MAKE) -C hardsup/
+
+anstohm.o : anstohm.cpp
+	$(CXX) -c anstohm.cpp $(CFLAGS) $(CXXFLAGS) -Wno-all
+
+hm_mrpd.o : hm_mrpd.cpp
+	$(CXX) -c hm_mrpd.cpp $(CFLAGS) $(CXXFLAGS) -Wno-all
+
+hm_asim.o : hm_asim.cpp
+	$(CXX) -c hm_asim.cpp $(CFLAGS) $(CXXFLAGS) -Wno-all
+
+clean:
+	$(PSI_CLEAN_MATRIX)
+	$(MAKE) -C hardsup clean
+	rm -f SICServer
+	rm -f *.a
+	rm -f *.o
+
+MZOBJ=fsm.o logger.o sugar.o pardef.o ease.o strobj.o oxinst.o  \
+	  ipsdriv.o ilmdriv.o itcdriv.o ighdriv.o euro2kdriv.o modbus.o
+
+cflags:
+	@echo ${CFLAGS}
+
+deploy: all
+	cd instrument; ./make_sics_tar.tcl

site_ansto/anstohm.cpp

@@ -0,0 +1,447 @@
+/*----------------------------------------------------------------------------
+
+				A N S T O H M
+				
+  A histogramming memory driver for the ANSTO histogrammer. This version
+  assumes the histogrammer is a TANGO device server and uses the TANGO
+  api to communicate with the histogrammer. It has to be compiled with 
+  the C++ compiler and the SICServer has to be linked with C++.
+  
+  Andy Gotz, February 2004
+  
+       Copyright:
+
+       ANSTO
+       Lucas Heights
+       New South Wales
+       AUSTRALIA
+
+
+      The authors hereby grant permission to use, copy, modify, distribute,
+      and license this software and its documentation for any purpose, provided
+      that existing copyright notices are retained in all copies and that this
+      notice is included verbatim in any distributions. No written agreement,
+      license, or royalty fee is required for any of the authorized uses.
+      Modifications to this software may be copyrighted by their authors
+      and need not follow the licensing terms described here, provided that
+      the new terms are clearly indicated on the first page of each file where
+      they apply.
+
+      IN NO EVENT SHALL THE AUTHORS OR DISTRIBUTORS BE LIABLE TO ANY PARTY
+      FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
+      ARISING OUT OF THE USE OF THIS SOFTWARE, ITS DOCUMENTATION, OR ANY
+      DERIVATIVES THEREOF, EVEN IF THE AUTHORS HAVE BEEN ADVISED OF THE
+      POSSIBILITY OF SUCH DAMAGE.
+
+      THE AUTHORS AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES,
+      INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY,
+      FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.  THIS SOFTWARE
+      IS PROVIDED ON AN "AS IS" BASIS, AND THE AUTHORS AND DISTRIBUTORS HAVE
+      NO OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR
+      MODIFICATIONS.
+----------------------------------------------------------------------------*/
+#include <string.h>
+#include <stdlib.h>
+#include <assert.h>
+#include <math.h>
+extern "C" {
+#include "fortify.h"
+#include "sics.h"
+#include "countdriv.h"
+#include "counter.h"
+#include "stringdict.h"
+#include "HistMem.h"
+#include "HistDriv.i"
+#include "anstohm.h"
+}
+#include <tango.h>
+
+/*
+
+#define TESTVAL 128
+
+    define TESTVAL to set the simulated histogram to a fixed value for
+   testing
+*/   
+  static int iSet = 0;
+  static HistInt iSetVal = 0;
+  static HistMode eHistMode;
+/*
+ * histogrammer proxy and data globals
+ *
+ * NOTE: defining this as globals means ONLY one histogrammer can be
+ * interfaces from SICS. If we need more we need to manage multiple 
+ * histogram devices e.g. by adding them to the pHistDriver structure
+ */
+
+  static char *hm_device = "localhost:30001/hifar/mrpd/hm#dbase=no";
+  static Tango::DeviceProxy *hm_proxy=NULL;
+  static vector<long> hm_data;
+
+/*--------------------------------------------------------------------------*/
+  static int AnstoHMConfig(pHistDriver self, SConnection *pCon, 
+                       pStringDict pOption, SicsInterp *pSics)
+  {
+    int i, iLength = 1, status;
+    char pData[132];
+
+    if(eHistMode == eHTOF)
+    {
+      for(i = 0; i < self->data->rank; i++)
+      {
+        iLength *= self->data->iDim[i];
+      }       
+      iLength *= self->data->nTimeChan;
+    }
+
+/*
+ * set count mode
+ */
+    if (hm_proxy != NULL)
+    {
+	try
+        {
+	    string count_mode;
+	    if (self->eCount == ePreset) 
+            {
+	       count_mode = "monitor";
+            }
+            else
+            {
+	       count_mode = "time";
+            }
+            Tango::DeviceAttribute attr_write((const char*)"count_mode",count_mode);
+            hm_proxy->write_attribute(attr_write);
+        }
+        catch(Tango::DevFailed &exception)
+        {
+            SCWrite(pCon,"ERROR: Histogram Count Mode failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+            return 0;
+        }
+    }    
+
+/*
+ * send preset to histogrammer
+ */
+    if (hm_proxy != NULL)
+    {
+	try
+        {
+/*
+ * QUESTION: what are the time units of fCountPreset ? Might have to scale it
+ *           should iExponent be taken into account here ?
+ */
+	    long preset = (long)self->fCountPreset;
+            Tango::DeviceAttribute attr_write((const char*)"preset",preset);
+            hm_proxy->write_attribute(attr_write);
+        }
+        catch(Tango::DevFailed &exception)
+        {
+            SCWrite(pCon,"ERROR: Histogram Preset failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+            return 0;
+        }
+    }    
+
+    return 1;
+  }  	
+/*-------------------------------------------------------------------------*/
+ static int AnstoHMStart(pHistDriver self, SConnection *pCon)
+ {
+    if (hm_proxy != NULL)
+    {
+        try
+        {
+            hm_proxy->command_inout("Start");
+        }
+        catch (Tango::DevFailed &exception)
+        {
+            SCWrite(pCon,"ERROR: TANGO Histogram Start failed",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+            return 0;
+        }
+    }
+    return 1;
+ }  			
+/*-------------------------------------------------------------------------*/
+ static int AnstoHMPause(pHistDriver self, SConnection *pCon)
+ {
+    if (hm_proxy != NULL)
+    {
+        try
+        {
+            hm_proxy->command_inout("Pause");
+        }
+        catch (Tango::DevFailed &exception)
+        {
+            SCWrite(pCon,"ERROR: Histogram Pause failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+            return 0;
+        }
+    }
+    return 1;
+ }  
+/*------------------------------------------------------------------------*/
+ static int AnstoHMContinue(pHistDriver self, SConnection *pCon)
+ {
+    if (hm_proxy != NULL)
+    {
+        try
+        {
+            hm_proxy->command_inout("Continue");
+        }
+        catch (Tango::DevFailed &exception)
+        {
+            SCWrite(pCon,"ERROR: Histogram Continue failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+            return 0;
+        }
+    }
+    return 1;
+ }  
+/*-------------------------------------------------------------------------*/
+ static int AnstoHMHalt(pHistDriver self)
+ {
+    if (hm_proxy != NULL)
+    {
+        try
+        {
+            hm_proxy->command_inout("Halt");
+        }
+        catch (Tango::DevFailed &exception)
+        {
+/*
+            SCWrite(pCon,"ERROR: Histogram Halt failed",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+ */
+            return 0;
+        }
+    }
+    return 1;
+ }  			
+/*-------------------------------------------------------------------------*/
+ static int AnstoHMGetCountStatus(pHistDriver self, SConnection *pCon)
+ {
+    if (hm_proxy != NULL)
+    {
+        try
+        {
+            Tango::DevState state;
+            state = hm_proxy->state();
+            switch (state) 
+            {
+                case Tango::OFF : 
+                    return HWIdle;
+                case Tango::RUNNING : 
+                    return HWBusy;
+                case Tango::STANDBY :
+                    return HWPause;
+                case Tango::FAULT :
+                    return HWFault;
+                default :
+                    return HWFault;
+            }
+        }
+        catch(Tango::DevFailed &exception)
+        {
+            SCWrite(pCon,"ERROR: Histogram state() failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+            return 0;
+        }
+    }
+ } 
+/*-------------------------------------------------------------------------*/
+ static int AnstoHMGetError(pHistDriver self, int *iCode, char *pError, int iLen)
+ {
+    return 0;
+ } 
+/*-------------------------------------------------------------------------*/
+ static int AnstoHMTryAndFixIt(pHistDriver self, int iCode)
+ {
+    if (hm_proxy != NULL)
+    {
+        try
+        {
+            hm_proxy->command_inout("Reset");
+        }
+        catch (Tango::DevFailed &exception)
+        {
+/*
+            SCWrite(pCon,"ERROR: Histogram Reset failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+*/
+            return 0;
+        }
+    }
+    return 1;
+ } 
+/*--------------------------------------------------------------------------*/
+ static int AnstoHMGetData(pHistDriver self, SConnection *pCon)
+ {
+    try
+    {
+        Tango::DeviceAttribute attr_read = hm_proxy->read_attribute("data");
+
+// return data in global hm_data variable
+
+        attr_read >> hm_data;
+    }
+    catch(Tango::DevFailed &exception)
+    {
+            SCWrite(pCon,"ERROR: Histogram GetData failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+            return 0;
+    }
+    return 1;
+ } 
+/*--------------------------------------------------------------------------*/
+ static int AnstoHMGetHistogram(pHistDriver self, SConnection *pCon,
+                            int i, int iStart, int iEnd, HistInt *lData)
+ {
+      int ii;
+      
+      if(i < 0)
+      {
+        SCWrite(pCon,"ERROR: histogram out of range",eError);
+        return 0;
+      }   
+#ifdef TESTVAL 
+      for(ii = iStart; ii < iEnd; ii++)
+      {
+        lData[ii] = TESTVAL;
+      }      
+#else      
+      AnstoHMGetData(self, pCon);
+      for(ii = iStart; ii < iEnd; ii++)
+      {
+        if (ii < hm_data.size()) lData[ii-iStart] = hm_data[ii];
+      }
+#endif      
+      return 1;
+ }                              			
+/*------------------------------------------------------------------------*/
+ static int AnstoHMSetHistogram(pHistDriver self, SConnection *pCon,
+                            int i, int iStart, int iEnd, HistInt *lData)
+ {
+   iSet = 1;
+   iSetVal = lData[0];
+   return 1;
+ }
+
+/*-------------------------------------------------------------------------*/
+ static int AnstoHMPreset(pHistDriver self, SConnection *pCon, HistInt iVal)
+ {
+   iSet = 1;
+   iSetVal = iVal;
+   
+   return 1;
+ }
+/*------------------------------------------------------------------------*/
+ static int AnstoHMFreePrivate(pHistDriver self)
+ {
+    return 1;
+ } 
+/*------------------------------------------------------------------------*/
+ static long AnstoHMGetMonitor(pHistDriver self, int i, SConnection *pCon)
+ {
+    long hm_monitor;
+    try
+    {
+        Tango::DeviceAttribute attr_read = hm_proxy->read_attribute("monitor");
+
+// return data in global hm_data variable
+
+        attr_read >> hm_monitor;
+    }
+    catch(Tango::DevFailed &exception)
+    {
+            SCWrite(pCon,"ERROR: Histogram GetData failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+            return 0;
+    }
+    return hm_monitor;
+ }
+/*------------------------------------------------------------------------*/
+ static float AnstoHMGetTime(pHistDriver self, SConnection *pCon)
+ {
+    double hm_time;
+    try
+    {
+        Tango::DeviceAttribute attr_read = hm_proxy->read_attribute("time");
+
+// return data in global hm_data variable
+
+        attr_read >> hm_time;
+    }
+    catch(Tango::DevFailed &exception)
+    {
+            SCWrite(pCon,"ERROR: Histogram GetData failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+            return 0;
+    }
+    return (float)hm_time;
+    
+ }
+/*-------------------------------------------------------------------------*/
+pHistDriver CreateAnstoHM(pStringDict pOpt)
+{
+    pHistDriver pNew = NULL;
+    
+    /* create the general driver */
+    pNew = CreateHistDriver(pOpt);
+    if(!pNew)
+    {
+      return NULL;
+    } 
+    
+    /* not using private data currently */
+    pNew->pPriv = NULL;
+    
+    /* configure all those functions */
+    pNew->Configure = AnstoHMConfig;
+    pNew->Start     = AnstoHMStart;
+    pNew->Halt      = AnstoHMHalt;
+    pNew->GetCountStatus = AnstoHMGetCountStatus;
+    pNew->GetError  = AnstoHMGetError;
+    pNew->TryAndFixIt = AnstoHMTryAndFixIt;
+    pNew->GetData   = AnstoHMGetData;
+    pNew->GetHistogram =  AnstoHMGetHistogram;
+    pNew->SetHistogram =  AnstoHMSetHistogram;
+    pNew->GetMonitor   =  AnstoHMGetMonitor;
+    pNew->GetTime      =  AnstoHMGetTime;
+    pNew->Preset    = AnstoHMPreset;
+    pNew->FreePrivate = AnstoHMFreePrivate;
+    pNew->Pause       = AnstoHMPause;
+    pNew->Continue    = AnstoHMContinue;
+    pNew->fCountPreset = 1;
+    StringDictAddPair(pOpt,"device",hm_device);
+    
+    try
+    {
+        hm_proxy = new Tango::DeviceProxy(hm_device);
+    }
+    catch(Tango::DevFailed &exception)
+    {
+            printf("ERROR: New Tango DeviceProxy failed\n");
+/*
+            SCWrite(pCon,"ERROR: New Tango DeviceProxy failed",eError);
+            SCWrite(pCon,"Tango error :",eError);
+            SCWrite(pCon,exception.errors[0].desc,eError);
+ */
+            return 0;
+    }
+    hm_data.resize(10);
+
+    return pNew;
+ }
+  

site_ansto/anstohm.h

@@ -0,0 +1,28 @@
+
+#line 15 "histsim.w"
+
+/*--------------------------------------------------------------------------
+                        A N S T O H M
+
+  The ANSTO histogramming memory driver include file
+
+  Andy Gotz, February 2004
+
+  copyright: see implementation file.
+---------------------------------------------------------------------------*/
+#ifndef SICSANSTOHM
+#define SICSANSTOHM
+
+#line 5 "histsim.w"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+pHistDriver CreateAnstoHM(pStringDict pOpt);
+#ifdef __cplusplus
+}
+#endif
+
+#line 27 "histsim.w"
+
+#endif

site_ansto/hm_asim.h

@@ -0,0 +1,21 @@
+/*--------------------------------------------------------------------------
+   H M _ A S I M
+
+  The ANSTO simulated histogramming memory driver include file 
+
+  Paul Hathaway, September 2004
+
+  Copyright: see Copyright.txt
+---------------------------------------------------------------------------*/
+#ifndef HM_ASIM
+#define HM_ASIM
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+pHistDriver CreateHmAsim(pStringDict pOpt);
+#ifdef __cplusplus
+}
+#endif
+
+#endif

site_ansto/hm_tango.h

@@ -0,0 +1,30 @@
+
+#line 15 "histsim.w"
+
+/*--------------------------------------------------------------------------
+                        H M _ T A N G O
+
+  Header file for the ANSTO histogramming memory driver interfacing 
+  a TANGO server
+
+  Based on anstohm.h (Andy Gotz, February 2004)
+  Modified: Paul Hathaway, July 2004
+
+  Copyright: see Copyright.txt
+---------------------------------------------------------------------------*/
+#ifndef SICS_HM_TANGO
+#define SICS_HM_TANGO
+
+#line 5 "histsim.w"
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+pHistDriver CreateHmTango(pStringDict pOpt);
+#ifdef __cplusplus
+}
+#endif
+
+#line 27 "histsim.w"
+
+#endif

site_ansto/itc4.c

@@ -0,0 +1,281 @@
+/*---------------------------------------------------------------------------
+                      I T C 4
+	
+  This is the implementation for a ITC4 object derived from an more general
+  environment controller.
+  
+  Mark Koennecke, August 1997
+  
+       Copyright:
+
+       Labor fuer Neutronenstreuung
+       Paul Scherrer Institut
+       CH-5423 Villigen-PSI
+
+
+      The authors hereby grant permission to use, copy, modify, distribute,
+      and license this software and its documentation for any purpose, provided
+      that existing copyright notices are retained in all copies and that this
+      notice is included verbatim in any distributions. No written agreement,
+      license, or royalty fee is required for any of the authorized uses.
+      Modifications to this software may be copyrighted by their authors
+      and need not follow the licensing terms described here, provided that
+      the new terms are clearly indicated on the first page of each file where
+      they apply.
+
+      IN NO EVENT SHALL THE AUTHORS OR DISTRIBUTORS BE LIABLE TO ANY PARTY
+      FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
+      ARISING OUT OF THE USE OF THIS SOFTWARE, ITS DOCUMENTATION, OR ANY
+      DERIVATIVES THEREOF, EVEN IF THE AUTHORS HAVE BEEN ADVISED OF THE
+      POSSIBILITY OF SUCH DAMAGE.
+
+      THE AUTHORS AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES,
+      INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY,
+      FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.  THIS SOFTWARE
+      IS PROVIDED ON AN "AS IS" BASIS, AND THE AUTHORS AND DISTRIBUTORS HAVE
+      NO OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR
+      MODIFICATIONS.
+----------------------------------------------------------------------------*/
+#include <string.h>
+#include <stdlib.h>
+#include <assert.h>
+#include <tcl.h>
+#include <fortify.h>
+#include <sics.h>
+#include <splitter.h>
+#include <obpar.h>
+#include <devexec.h>
+#include <nserver.h>
+#include <interrupt.h>
+#include <emon.h>
+#include <evcontroller.h>
+#include <evcontroller.i>
+#include "itc4.h"
+
+/*---------------------------------------------------------------------------*/
+  int ITC4SetPar(pEVControl self, char *name, float fNew, SConnection *pCon)
+  {
+    int iRet;
+     
+     /* check authorsisation */
+     if(!SCMatchRights(pCon,usUser))
+     {
+       SCWrite(pCon,"ERROR: you are not authorised to change this parameter",
+               eError);
+       return 0;        
+     }
+     
+     /* just catch those three names which we understand */
+     if(strcmp(name,"sensor") == 0)
+     {
+       iRet = SetSensorITC4(self->pDriv,(int)fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigITC4(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: ITC4 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"control") == 0)
+     {
+       iRet = SetControlITC4(self->pDriv,(int)fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigITC4(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: ITC4 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"timeout") == 0)
+     {
+       iRet = SetTMOITC4(self->pDriv,(int)fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigITC4(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: ITC4 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"divisor") == 0)
+     {
+       iRet = SetDivisorITC4(self->pDriv,fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigITC4(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: ITC4 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"multiplicator") == 0)
+     {
+       iRet = SetMultITC4(self->pDriv,fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigITC4(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: ITC4 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else
+         return EVCSetPar(self,name,fNew,pCon);
+  }
+/*--------------------------------------------------------------------------*/
+  int ITC4GetPar(pEVControl self, char *name, float *fNew)
+  {
+    int iRet;
+    float fDiv;
+     
+     /* just catch those two names which we understand */
+     if(strcmp(name,"sensor") == 0)
+     {
+       iRet = GetSensorITC4(self->pDriv);
+       *fNew = (float)iRet;
+       return 1;
+     }
+     else if(strcmp(name,"control") == 0)
+     {
+       iRet = GetControlITC4(self->pDriv);
+       *fNew = (float)iRet;
+       return 1;
+     }
+     else if(strcmp(name,"timeout") == 0)
+     {
+       iRet = GetTMOITC4(self->pDriv);
+       *fNew = (float)iRet;
+       return 1;
+     }
+     else if(strcmp(name,"divisor") == 0)
+     {
+       fDiv = GetDivisorITC4(self->pDriv);
+       *fNew = fDiv;
+       return 1;
+     }
+     else if(strcmp(name,"multiplicator") == 0)
+     {
+       fDiv = GetMultITC4(self->pDriv);
+       *fNew = fDiv;
+       return 1;
+     }
+     else
+          return EVCGetPar(self,name,fNew);
+  }
+/*---------------------------------------------------------------------------*/
+  int ITCList(pEVControl self, SConnection *pCon)
+  {
+    char pBueffel[132];
+    int iRet;
+    
+    iRet = EVCList(self,pCon);
+    sprintf(pBueffel,"%s.sensor = %d\n",self->pName,
+            GetSensorITC4(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.control = %d\n",self->pName,
+            GetControlITC4(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.timeout  = %d\n",self->pName,
+            GetTMOITC4(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.divisor  = %f\n",self->pName,
+            GetDivisorITC4(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.multiplicator  = %f\n",self->pName,
+            GetMultITC4(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    return iRet;        
+  }
+/*-------------------------------------------------------------------------*/
+  int ITC4Wrapper(SConnection *pCon, SicsInterp *pSics, void *pData,
+                  int argc, char *argv[])
+  {
+    pEVControl self = NULL;
+    char pBueffel[256];
+    int iRet;
+    double fNum;
+    float fVal;
+    
+    self = (pEVControl)pData;
+    assert(self);
+    assert(pCon);
+    assert(pSics);
+    
+    if(argc < 2)
+    {
+      return EVControlWrapper(pCon,pSics,pData,argc,argv);
+    }
+    
+    strtolower(argv[1]);
+    if((strcmp(argv[1],"sensor") == 0) || (strcmp(argv[1],"control") == 0) ||
+       (strcmp(argv[1],"timeout") == 0) || (strcmp(argv[1],"divisor") == 0) ||
+       (strcmp(argv[1],"multiplicator") == 0) )
+    {
+       if(argc > 2) /* set case */
+       {
+         iRet = Tcl_GetDouble(pSics->pTcl,argv[2],&fNum);
+         if(iRet != TCL_OK)
+         {
+           sprintf(pBueffel,"ERROR: expected number, got %s",argv[2]);
+           SCWrite(pCon,pBueffel,eError);
+           return 0;
+         }  
+         return ITC4SetPar(self,argv[1],(float)fNum,pCon);
+       }
+       else /* get case */
+       {
+          iRet = ITC4GetPar(self,argv[1],&fVal);
+          sprintf(pBueffel,"%s.%s = %f\n",self->pName,
+                  argv[1],fVal);
+          SCWrite(pCon,pBueffel,eValue);
+          return 1;
+       }
+    }
+    else if(strcmp(argv[1],"list") == 0)
+    { 
+      return ITCList(self,pCon);
+    }
+    else
+    {
+      return EVControlWrapper(pCon,pSics,pData,argc,argv);
+    }
+    /* not reached */
+    return 0; 
+  }  

site_ansto/itc4.h

@@ -0,0 +1,43 @@
+
+/*-------------------------------------------------------------------------
+                             ITC 4
+ 
+  Support for Oxford Instruments ITC4 Temperature controllers for SICS.
+  The meaning and working of the functions defined is as desribed for a
+  general environment controller.
+
+  Mark Koennecke, Juli 1997
+
+  copyright: see implementation file.
+
+-----------------------------------------------------------------------------*/
+#ifndef SICSITC4
+#define SICSITC4
+/*------------------------- The Driver ------------------------------------*/
+
+   pEVDriver CreateITC4Driver(int argc, char *argv[]);
+   int       ConfigITC4(pEVDriver self);
+   int       SetSensorITC4(pEVDriver self, int iSensor);
+   int       SetControlITC4(pEVDriver self, int iSensor);
+   int       GetSensorITC4(pEVDriver self);
+   int       GetControlITC4(pEVDriver self);
+   int       SetDivisorITC4(pEVDriver self, float iSensor);
+   float       GetDivisorITC4(pEVDriver self);
+   int       SetMultITC4(pEVDriver self, float iSensor);
+   float       GetMultITC4(pEVDriver self);
+   int       SetTMOITC4(pEVDriver self, int iSensor);
+   int       GetTMOITC4(pEVDriver self);
+
+
+/*------------------------- The ITC4 object ------------------------------*/
+
+     int ITC4Wrapper(SConnection *pCon, SicsInterp *pSics, void *pData,
+                     int argc, char *argv[]);
+     int ITC4SetPar(pEVControl self, char *name, float fNew, 
+                   SConnection *pCon);
+     int ITC4GetPar(pEVControl self, char *name, float *fVal);
+     int ITCList(pEVControl self, SConnection *pCon);
+
+
+#endif 
+ 

site_ansto/itc4.w

@@ -0,0 +1,74 @@
+\subsubsection{Oxford Instruments ITC4 Temperature Controllers}
+SINQ makes heavy use of Oxford Instruments ITC4 temperature controllers. In
+order to support them the following software components had to be defined in
+addition to the basic environmet controller interfaces:
+\begin{itemize}
+\item ITC4driver, naturally. 
+\item A ITC4-controller object as derivation of environment controller. ITC4
+'s allow you to select a sensor which you read as your standard sensor and a
+sensor which is used for automatic control. The ITC4 controller object adds
+just that additional functionality to the statndard environment controller. 
+\end{itemize}
+The additional data, the selection of sensors, will be kept in the driver.
+This serves  also an example for implementing inheritance without C++.
+
+The driver interface:
+@d itcd @{
+   pEVDriver CreateITC4Driver(int argc, char *argv[]);
+   int       ConfigITC4(pEVDriver self);
+   int       SetSensorITC4(pEVDriver self, int iSensor);
+   int       SetControlITC4(pEVDriver self, int iSensor);
+   int       GetSensorITC4(pEVDriver self);
+   int       GetControlITC4(pEVDriver self);
+   int       SetDivisorITC4(pEVDriver self, float iSensor);
+   float       GetDivisorITC4(pEVDriver self);
+   int       SetMultITC4(pEVDriver self, float iSensor);
+   float       GetMultITC4(pEVDriver self);
+   int       SetTMOITC4(pEVDriver self, int iSensor);
+   int       GetTMOITC4(pEVDriver self);
+
+@}
+
+The ConfigITC4 is special. It has to be called to commit changes to the
+driver read and control parameters. 
+
+The ITC4 object interface:
+@d itco @{
+     int ITC4Wrapper(SConnection *pCon, SicsInterp *pSics, void *pData,
+                     int argc, char *argv[]);
+     int ITC4SetPar(pEVControl self, char *name, float fNew, 
+                   SConnection *pCon);
+     int ITC4GetPar(pEVControl self, char *name, float *fVal);
+     int ITCList(pEVControl self, SConnection *pCon);
+@}
+
+The functions defined are: new parameter handling functions, with just
+support for the two extra parameters added and a new Wrapper function for
+SICS. The meaning of all these functions, their parameters and return values
+are identical to those defined for an environment controller. Additionally,
+the standard environment controller functions will work as described. The
+functions described above are just needed to implement the extra parameters.
+
+@o itc4.h @{
+/*-------------------------------------------------------------------------
+                             ITC 4
+ 
+  Support for Oxford Instruments ITC4 Temperature controllers for SICS.
+  The meaning and working of the functions defined is as desribed for a
+  general environment controller.
+
+  Mark Koennecke, Juli 1997
+
+  copyright: see implementation file.
+
+-----------------------------------------------------------------------------*/
+#ifndef SICSITC4
+#define SICSITC4
+/*------------------------- The Driver ------------------------------------*/
+@<itcd@>
+/*------------------------- The ITC4 object ------------------------------*/
+@<itco@>
+
+#endif 
+ 
+@}

site_ansto/itc4driv.c

@@ -0,0 +1,478 @@
+/*--------------------------------------------------------------------------
+			     I T C 4 D R I V
+
+     This file contains the implementation of a driver for the Oxford 
+     Instruments ITC4 Temperature controller.
+
+  
+      Mark Koennecke, Juli 1997
+
+       Copyright:
+
+       Labor fuer Neutronenstreuung
+       Paul Scherrer Institut
+       CH-5423 Villigen-PSI
+
+
+      The authors hereby grant permission to use, copy, modify, distribute,
+      and license this software and its documentation for any purpose, provided
+      that existing copyright notices are retained in all copies and that this
+      notice is included verbatim in any distributions. No written agreement,
+      license, or royalty fee is required for any of the authorized uses.
+      Modifications to this software may be copyrighted by their authors
+      and need not follow the licensing terms described here, provided that
+      the new terms are clearly indicated on the first page of each file where
+      they apply.
+
+      IN NO EVENT SHALL THE AUTHORS OR DISTRIBUTORS BE LIABLE TO ANY PARTY
+      FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
+      ARISING OUT OF THE USE OF THIS SOFTWARE, ITS DOCUMENTATION, OR ANY
+      DERIVATIVES THEREOF, EVEN IF THE AUTHORS HAVE BEEN ADVISED OF THE
+      POSSIBILITY OF SUCH DAMAGE.
+
+      THE AUTHORS AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES,
+      INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY,
+      FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.  THIS SOFTWARE
+      IS PROVIDED ON AN "AS IS" BASIS, AND THE AUTHORS AND DISTRIBUTORS HAVE
+      NO OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR
+      MODIFICATIONS.
+----------------------------------------------------------------------------*/
+#include <string.h>
+#include <stdlib.h>
+#include <time.h>
+#include <math.h>
+#include <assert.h>
+#include <fortify.h>
+#include <conman.h>
+#include <servlog.h>
+#include <fortify.h>
+
+  typedef struct __EVDriver  *pEVDriver;
+
+#include <evdriver.i>  
+/* Do we need these ?
+#include <sics.h>
+#include <modriv.h>
+*/
+#include <rs232controller.h>
+#include "hardsup/itc4util.h"
+#include "hardsup/el734_def.h"
+#include "hardsup/el734fix.h"
+
+#define SHITTYVALUE -777
+/*------------------------- The Driver ------------------------------------*/
+
+   pEVDriver CreateITC4Driver(int argc, char *argv[]);
+      int       ConfigITC4(pEVDriver self);
+      
+      
+/*-----------------------------------------------------------------------*/
+  typedef struct {
+                   pITC4 pData;
+                   char *pHost;
+                   int iPort;
+                   int iChannel;
+                   int iControl; /* itc control */
+                   float fDiv;
+                   float fMult;
+                   int iRead; /* itc sensor */
+                   int iTmo;
+                   int iLastError;
+                  } ITC4Driv, *pITC4Driv;
+/*----------------------------------------------------------------------------*/
+  static int GetITC4Pos(pEVDriver  self, float *fPos)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv)self->pPrivate;
+     assert(pMe);
+   
+     iRet = ITC4_Read(&pMe->pData,fPos);     
+     if(iRet != 1 )
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     if( (*fPos < 0) || (*fPos > 10000) )
+     {
+       *fPos = -999.;
+       pMe->iLastError = SHITTYVALUE;
+       return 0;
+     }
+     return 1;
+  } 
+/*----------------------------------------------------------------------------*/
+  static int ITC4Run(pEVDriver self, float fVal)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     iRet  = ITC4_Set(&pMe->pData,fVal);
+     if(iRet != 1)
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     return 1;
+ }
+/*--------------------------------------------------------------------------*/
+  static int ITC4Error(pEVDriver self, int *iCode, char *error, int iErrLen)
+  {
+     pITC4Driv pMe = NULL;
+     
+     assert(self);
+     pMe = (pITC4Driv)self->pPrivate;
+     assert(pMe);
+
+     *iCode = pMe->iLastError;
+     if(pMe->iLastError == SHITTYVALUE)
+     {
+       strncpy(error,"Invalid temperature returned form ITC4, check sensor",iErrLen);
+     }
+     else
+     {
+        ITC4_ErrorTxt(&pMe->pData,pMe->iLastError,error,iErrLen);    
+     }
+    return 1;
+  }
+/*--------------------------------------------------------------------------*/
+  static int ITC4Send(pEVDriver self, char *pCommand, char *pReply, int iLen)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     iRet  = ITC4_Send(&pMe->pData,pCommand, pReply,iLen);
+     if(iRet != 1)
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     return 1;
+
+  }  
+/*--------------------------------------------------------------------------*/
+  static int ITC4Init(pEVDriver self)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     pMe->pData = NULL;
+     iRet = ITC4_Open(&pMe->pData, pMe->pHost, pMe->iRead, pMe->iControl,0);
+     if(iRet != 1)
+     {
+       if(iRet == ITC4__NOITC)
+       {
+         return -1;
+       }
+       else
+       {
+         pMe->iLastError = iRet;
+         return 0;
+       }  
+     }
+     return 1;
+  }  
+/*--------------------------------------------------------------------------*/
+  static int ITC4Close(pEVDriver self)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     ITC4_Close(&pMe->pData);
+     return 1;
+  }  
+/*---------------------------------------------------------------------------*/
+  static int ITC4Fix(pEVDriver self, int iError)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+        switch(iError)
+        {
+            /* network errors */
+            case EL734__BAD_FLUSH:
+            case EL734__BAD_RECV:
+            case EL734__BAD_RECV_NET:
+            case EL734__BAD_RECV_UNKN:
+            case EL734__BAD_RECVLEN:
+            case EL734__BAD_RECV1:
+            case EL734__BAD_RECV1_PIPE:
+            case EL734__BAD_RNG:
+            case EL734__BAD_SEND:
+            case EL734__BAD_SEND_PIPE:
+            case EL734__BAD_SEND_NET:
+            case EL734__BAD_SEND_UNKN:
+            case EL734__BAD_SENDLEN:
+                      ITC4Close(self);
+                      iRet = ITC4Init(self);
+                      if(iRet)
+                      {
+                        return DEVREDO;
+                      }                 
+                      else
+                      {
+                        return DEVFAULT;
+                      }                 
+                      break;
+            /* handable protocoll errors */
+            case EL734__BAD_TMO:
+                      return DEVREDO;
+                      break;
+            case -501: /* Bad_COM */
+                      return DEVREDO;
+            case -504: /* Badly formatted */
+                      return DEVREDO;                              
+            default:
+                      return DEVFAULT;
+                      break;                       
+        }
+        return DEVFAULT;
+  }
+     
+/*--------------------------------------------------------------------------*/
+  static int ITC4Halt(pEVDriver *self)
+  {
+     assert(self);
+     
+     return 1;
+  }
+/*------------------------------------------------------------------------*/
+  void KillITC4(void *pData)
+  {
+     pITC4Driv pMe = NULL;
+     
+     pMe = (pITC4Driv)pData;
+     assert(pMe);
+     
+     if(pMe->pHost)
+     {
+        free(pMe->pHost);
+     }
+     free(pMe);
+  }  
+/*------------------------------------------------------------------------*/
+  pEVDriver CreateITC4Driver(int argc, char *argv[])
+  {
+     pEVDriver pNew = NULL;
+     pITC4Driv pSim = NULL;
+     
+     /* check for arguments */
+     if(argc < 3)
+     {
+       return NULL;
+     }
+     
+     pNew = CreateEVDriver(argc,argv);
+     pSim = (pITC4Driv)malloc(sizeof(ITC4Driv));
+     memset(pSim,0,sizeof(ITC4Driv));
+     if(!pNew || !pSim)
+     {
+       return NULL;
+     }
+     pNew->pPrivate = pSim;
+     pNew->KillPrivate = KillITC4;
+     
+     /* initalise pITC4Driver */
+     pSim->iControl = atoi(argv[2]);
+     pSim->iRead = atoi(argv[1]);
+     pSim->iLastError = 0;
+     pSim->iTmo = 10;
+     pSim->fDiv = 10.;
+     pSim->fMult = 10;
+     pSim->pHost = strdup(argv[0]);
+     pSim->iPort = 0;
+     pSim->iChannel = 0;
+     
+     
+     /* initialise function pointers */
+     pNew->SetValue = ITC4Run;
+     pNew->GetValue = GetITC4Pos;
+     pNew->Send     = ITC4Send;
+     pNew->GetError = ITC4Error;
+     pNew->TryFixIt = ITC4Fix;
+     pNew->Init     = ITC4Init;
+     pNew->Close    = ITC4Close;
+     
+     return pNew; 
+  }	
+/*--------------------------------------------------------------------------*/
+  int ConfigITC4(pEVDriver self)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     iRet = ITC4_Config(&pMe->pData, pMe->iTmo, pMe->iRead, 
+                        pMe->iControl,pMe->fDiv,pMe->fMult);
+     if(iRet < 0)
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int SetSensorITC4(pEVDriver self, int iSensor)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     if( (iSensor < 1) || (iSensor > 4) )
+     {
+        return 0;
+     } 
+     pMe->iRead = iSensor;
+     pMe->pData->iRead = iSensor;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int SetControlITC4(pEVDriver self, int iSensor)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     if( (iSensor < 1) || (iSensor > 4) )
+     {
+        return 0;
+     } 
+     pMe->iControl = iSensor;
+     pMe->pData->iControl = iSensor;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int SetTMOITC4(pEVDriver self, int iSensor)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     if(iSensor < 10)
+     {
+        return 0;
+     } 
+     pMe->iTmo = iSensor;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int GetControlITC4(pEVDriver self)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->iControl;
+  }
+/*-------------------------------------------------------------------------*/
+  int GetSensorITC4(pEVDriver self)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->iRead;
+  }
+/*-------------------------------------------------------------------------*/
+  int GetTMOITC4(pEVDriver self)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->iTmo;
+  }
+/*-------------------------------------------------------------------------*/
+  float GetDivisorITC4(pEVDriver self)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->fDiv;
+  }
+/*--------------------------------------------------------------------------*/
+  int SetDivisorITC4(pEVDriver self, float fDiv)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     pMe->fDiv = fDiv;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  float GetMultITC4(pEVDriver self)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->fMult;
+  }
+/*--------------------------------------------------------------------------*/
+  int SetMultITC4(pEVDriver self, float fDiv)
+  {
+     pITC4Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pITC4Driv )self->pPrivate;
+     assert(pMe);
+
+     pMe->fMult = fDiv;
+     return 1;
+  }
+  

site_ansto/lakeshore340.c

@@ -0,0 +1,284 @@
+/*---------------------------------------------------------------------------
+                      L A K E S H O R E 3 4 0
+	
+  This is the implementation for a LAKESHORE340 object derived from a more general
+  environment controller.
+  
+  Mark Koennecke, August 1997
+  Mark Lesha, January 2006 (based on ITC4 code)
+  
+       Copyright:
+
+       Labor fuer Neutronenstreuung
+       Paul Scherrer Institut
+       CH-5423 Villigen-PSI
+
+
+      The authors hereby grant permission to use, copy, modify, distribute,
+      and license this software and its documentation for any purpose, provided
+      that existing copyright notices are retained in all copies and that this
+      notice is included verbatim in any distributions. No written agreement,
+      license, or royalty fee is required for any of the authorized uses.
+      Modifications to this software may be copyrighted by their authors
+      and need not follow the licensing terms described here, provided that
+      the new terms are clearly indicated on the first page of each file where
+      they apply.
+
+      IN NO EVENT SHALL THE AUTHORS OR DISTRIBUTORS BE LIABLE TO ANY PARTY
+      FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
+      ARISING OUT OF THE USE OF THIS SOFTWARE, ITS DOCUMENTATION, OR ANY
+      DERIVATIVES THEREOF, EVEN IF THE AUTHORS HAVE BEEN ADVISED OF THE
+      POSSIBILITY OF SUCH DAMAGE.
+
+      THE AUTHORS AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES,
+      INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY,
+      FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.  THIS SOFTWARE
+      IS PROVIDED ON AN "AS IS" BASIS, AND THE AUTHORS AND DISTRIBUTORS HAVE
+      NO OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR
+      MODIFICATIONS.
+----------------------------------------------------------------------------*/
+#include <string.h>
+#include <stdlib.h>
+#include <assert.h>
+#include <tcl.h>
+#include <fortify.h>
+#include <sics.h>
+#include <splitter.h>
+#include <obpar.h>
+#include <devexec.h>
+#include <nserver.h>
+#include <interrupt.h>
+#include <emon.h>
+#include <evcontroller.h>
+#include <evcontroller.i>
+#include "lakeshore340.h"
+
+/*---------------------------------------------------------------------------*/
+  int LAKESHORE340SetPar(pEVControl self, char *name, float fNew, SConnection *pCon)
+  {
+    int iRet;
+     
+     /* check authorisation */
+     if(!SCMatchRights(pCon,usUser))
+     {
+       SCWrite(pCon,"ERROR: you are not authorised to change this parameter",
+               eError);
+       return 0;        
+     }
+     
+     /* just catch those three names which we understand */
+     if(strcmp(name,"sensor") == 0)
+     {
+       iRet = SetSensorLAKESHORE340(self->pDriv,(int)fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLAKESHORE340(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LAKESHORE340 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"control") == 0)
+     {
+       iRet = SetControlLAKESHORE340(self->pDriv,(int)fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLAKESHORE340(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LAKESHORE340 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"timeout") == 0)
+     {
+       iRet = SetTMOLAKESHORE340(self->pDriv,(int)fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLAKESHORE340(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LAKESHORE340 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     /* Note divisors and multipliers will not be used with the LAKESHORE340
+      but leave in for back compatibility */
+     else if(strcmp(name,"divisor") == 0)
+     {
+       iRet = SetDivisorLAKESHORE340(self->pDriv,fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLAKESHORE340(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LAKESHORE340 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"multiplicator") == 0)
+     {
+       iRet = SetMultLAKESHORE340(self->pDriv,fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLAKESHORE340(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LAKESHORE340 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else
+         return EVCSetPar(self,name,fNew,pCon);
+  }
+/*--------------------------------------------------------------------------*/
+  int LAKESHORE340GetPar(pEVControl self, char *name, float *fNew)
+  {
+    int iRet;
+    float fDiv;
+     
+     /* just catch those two names which we understand */
+     if(strcmp(name,"sensor") == 0)
+     {
+       iRet = GetSensorLAKESHORE340(self->pDriv);
+       *fNew = (float)iRet;
+       return 1;
+     }
+     else if(strcmp(name,"control") == 0)
+     {
+       iRet = GetControlLAKESHORE340(self->pDriv);
+       *fNew = (float)iRet;
+       return 1;
+     }
+     else if(strcmp(name,"timeout") == 0)
+     {
+       iRet = GetTMOLAKESHORE340(self->pDriv);
+       *fNew = (float)iRet;
+       return 1;
+     }
+     else if(strcmp(name,"divisor") == 0)
+     {
+       fDiv = GetDivisorLAKESHORE340(self->pDriv);
+       *fNew = fDiv;
+       return 1;
+     }
+     else if(strcmp(name,"multiplicator") == 0)
+     {
+       fDiv = GetMultLAKESHORE340(self->pDriv);
+       *fNew = fDiv;
+       return 1;
+     }
+     else
+          return EVCGetPar(self,name,fNew);
+  }
+/*---------------------------------------------------------------------------*/
+  int LAKESHORE340List(pEVControl self, SConnection *pCon)
+  {
+    char pBueffel[132];
+    int iRet;
+    
+    iRet = EVCList(self,pCon);
+    sprintf(pBueffel,"%s.sensor = %d\n",self->pName,
+            GetSensorLAKESHORE340(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.control = %d\n",self->pName,
+            GetControlLAKESHORE340(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.timeout  = %d\n",self->pName,
+            GetTMOLAKESHORE340(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.divisor  = %f\n",self->pName,
+            GetDivisorLAKESHORE340(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.multiplicator  = %f\n",self->pName,
+            GetMultLAKESHORE340(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    return iRet;        
+  }
+/*-------------------------------------------------------------------------*/
+  int LAKESHORE340Wrapper(SConnection *pCon, SicsInterp *pSics, void *pData,
+                  int argc, char *argv[])
+  {
+    pEVControl self = NULL;
+    char pBueffel[256];
+    int iRet;
+    double fNum;
+    float fVal;
+    
+    self = (pEVControl)pData;
+    assert(self);
+    assert(pCon);
+    assert(pSics);
+    
+    if(argc < 2)
+    {
+      return EVControlWrapper(pCon,pSics,pData,argc,argv);
+    }
+    
+    strtolower(argv[1]);
+    if((strcmp(argv[1],"sensor") == 0) || (strcmp(argv[1],"control") == 0) ||
+       (strcmp(argv[1],"timeout") == 0) || (strcmp(argv[1],"divisor") == 0) ||
+       (strcmp(argv[1],"multiplicator") == 0) )
+    {
+       if(argc > 2) /* set case */
+       {
+         iRet = Tcl_GetDouble(pSics->pTcl,argv[2],&fNum);
+         if(iRet != TCL_OK)
+         {
+           sprintf(pBueffel,"ERROR: expected number, got %s",argv[2]);
+           SCWrite(pCon,pBueffel,eError);
+           return 0;
+         }  
+         return LAKESHORE340SetPar(self,argv[1],(float)fNum,pCon);
+       }
+       else /* get case */
+       {
+          iRet = LAKESHORE340GetPar(self,argv[1],&fVal);
+          sprintf(pBueffel,"%s.%s = %f\n",self->pName,
+                  argv[1],fVal);
+          SCWrite(pCon,pBueffel,eValue);
+          return 1;
+       }
+    }
+    else if(strcmp(argv[1],"list") == 0)
+    { 
+      return LAKESHORE340List(self,pCon);
+    }
+    else
+    {
+      return EVControlWrapper(pCon,pSics,pData,argc,argv);
+    }
+    /* not reached */
+    return 0; 
+  }  

site_ansto/lakeshore340.h

@@ -0,0 +1,49 @@
+
+/*-------------------------------------------------------------------------
+                             LAKESHORE 340
+ 
+  Support for Lakeshore 340 Temperature controllers for SICS.
+  The meaning and working of the functions defined is as desribed for a
+  general environment controller.
+
+  Mark Koennecke, Juli 1997
+  Mark Lesha, January 2006 (based on ITC4 code)
+
+  copyright: see implementation file.
+
+-----------------------------------------------------------------------------*/
+#ifndef SICSLAKESHORE340
+#define SICSLAKESHORE340
+/*------------------------- The Driver ------------------------------------*/
+
+   pEVDriver CreateLAKESHORE340Driver(int argc, char *argv[]);
+   int       ConfigLAKESHORE340(pEVDriver self);
+   int       SetSensorLAKESHORE340(pEVDriver self, int iSensor);
+   int       SetControlLAKESHORE340(pEVDriver self, int iSensor);
+   int       GetSensorLAKESHORE340(pEVDriver self);
+   int       GetControlLAKESHORE340(pEVDriver self);
+   /* Divisors and multipliers should not be applicable to the LAKESHORE340
+    since it uses floating point variables, but we leave the functions
+    in here anyway for the time being (setting will have no effect and
+    a value of 1.0 will always be returned. */
+   int       SetDivisorLAKESHORE340(pEVDriver self, float iSensor);
+   float     GetDivisorLAKESHORE340(pEVDriver self);
+   int       SetMultLAKESHORE340(pEVDriver self, float iSensor);
+   float     GetMultLAKESHORE340(pEVDriver self);
+   /* Leave in time-out functionality */
+   int       SetTMOLAKESHORE340(pEVDriver self, int iSensor);
+   int       GetTMOLAKESHORE340(pEVDriver self);
+
+
+/*------------------------- The LAKESHORE340 object ------------------------------*/
+
+     int LAKESHORE340Wrapper(SConnection *pCon, SicsInterp *pSics, void *pData,
+                     int argc, char *argv[]);
+     int LAKESHORE340SetPar(pEVControl self, char *name, float fNew, 
+                   SConnection *pCon);
+     int LAKESHORE340GetPar(pEVControl self, char *name, float *fVal);
+     int LAKESHORE340List(pEVControl self, SConnection *pCon);
+
+
+#endif 
+ 

site_ansto/lakeshore340driv.c

@@ -0,0 +1,489 @@
+/*--------------------------------------------------------------------------
+			     L A K E S H O R E 3 4 0 D R I V
+
+     This file contains the implementation of a driver for the
+     Lakeshore 340 Temperature controller.
+
+  
+      Mark Koennecke, Juli 1997
+      Mark Lesha, January 2006 (based on ITC4 code)
+
+       Copyright:
+
+       Labor fuer Neutronenstreuung
+       Paul Scherrer Institut
+       CH-5423 Villigen-PSI
+
+
+      The authors hereby grant permission to use, copy, modify, distribute,
+      and license this software and its documentation for any purpose, provided
+      that existing copyright notices are retained in all copies and that this
+      notice is included verbatim in any distributions. No written agreement,
+      license, or royalty fee is required for any of the authorized uses.
+      Modifications to this software may be copyrighted by their authors
+      and need not follow the licensing terms described here, provided that
+      the new terms are clearly indicated on the first page of each file where
+      they apply.
+
+      IN NO EVENT SHALL THE AUTHORS OR DISTRIBUTORS BE LIABLE TO ANY PARTY
+      FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
+      ARISING OUT OF THE USE OF THIS SOFTWARE, ITS DOCUMENTATION, OR ANY
+      DERIVATIVES THEREOF, EVEN IF THE AUTHORS HAVE BEEN ADVISED OF THE
+      POSSIBILITY OF SUCH DAMAGE.
+
+      THE AUTHORS AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES,
+      INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY,
+      FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.  THIS SOFTWARE
+      IS PROVIDED ON AN "AS IS" BASIS, AND THE AUTHORS AND DISTRIBUTORS HAVE
+      NO OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR
+      MODIFICATIONS.
+----------------------------------------------------------------------------*/
+#include <string.h>
+#include <stdlib.h>
+#include <time.h>
+#include <math.h>
+#include <assert.h>
+#include <fortify.h>
+#include <conman.h>
+#include <servlog.h>
+#include <fortify.h>
+
+  typedef struct __EVDriver  *pEVDriver;
+
+#include <evdriver.i>  
+/* Do we need these ?
+#include <sics.h>
+#include <modriv.h>
+*/
+#include <rs232controller.h>
+#include "hardsup/lakeshore340util.h"
+#include "hardsup/el734_def.h"
+#include "hardsup/el734fix.h"
+
+#define SHITTYVALUE -777
+/*------------------------- The Driver ------------------------------------*/
+
+   pEVDriver CreateLAKESHORE340Driver(int argc, char *argv[]);
+      int       ConfigLAKESHORE340(pEVDriver self);
+      
+      
+/*-----------------------------------------------------------------------*/
+  typedef struct {
+                   pLAKESHORE340 pData;
+                   char *pHost;
+                   int iPort;
+                   int iChannel;
+                   int iControl; /* LAKESHORE340 control */
+                   float fDiv;
+                   float fMult;
+                   int iRead; /* LAKESHORE340 sensor */
+                   int iTmo;
+                   int iLastError;
+                  } LAKESHORE340Driv, *pLAKESHORE340Driv;
+/*----------------------------------------------------------------------------*/
+  static int GetLAKESHORE340Pos(pEVDriver  self, float *fPos)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv)self->pPrivate;
+     assert(pMe);
+   
+     iRet = LAKESHORE340_Read(&pMe->pData,fPos);     
+     if(iRet <= 0 )
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     if( (*fPos < 0) || (*fPos > 10000) )
+     {
+       *fPos = -999.;
+       pMe->iLastError = SHITTYVALUE;
+       return 0;
+     }
+     return 1;
+  } 
+/*----------------------------------------------------------------------------*/
+  static int LAKESHORE340Run(pEVDriver self, float fVal)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     iRet  = LAKESHORE340_Set(&pMe->pData,fVal);
+     if(iRet != 1)
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     return 1;
+ }
+/*--------------------------------------------------------------------------*/
+  static int LAKESHORE340Error(pEVDriver self, int *iCode, char *error, int iErrLen)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv)self->pPrivate;
+     assert(pMe);
+
+     *iCode = pMe->iLastError;
+     if(pMe->iLastError == SHITTYVALUE)
+     {
+       strncpy(error,"Invalid temperature returned form LAKESHORE340, check sensor",iErrLen);
+     }
+     else
+     {
+        LAKESHORE340_ErrorTxt(&pMe->pData,pMe->iLastError,error,iErrLen);    
+     }
+    return 1;
+  }
+/*--------------------------------------------------------------------------*/
+  static int LAKESHORE340Send(pEVDriver self, char *pCommand, char *pReply, int iLen)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     iRet  = LAKESHORE340_Send(&pMe->pData,pCommand, pReply,iLen);
+     if(iRet <= 0)
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     return 1;
+
+  }  
+/*--------------------------------------------------------------------------*/
+  static int LAKESHORE340Init(pEVDriver self)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     pMe->pData = NULL;
+     iRet = LAKESHORE340_Open(&pMe->pData, pMe->pHost, pMe->iRead, pMe->iControl,0);
+     if(iRet != 1)
+     {
+       if(iRet == LAKESHORE340__NOLAKESHORE340)
+       {
+         return -1;
+       }
+       else
+       {
+         pMe->iLastError = iRet;
+         return 0;
+       }  
+     }
+     return 1;
+  }  
+/*--------------------------------------------------------------------------*/
+  static int LAKESHORE340Close(pEVDriver self)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     LAKESHORE340_Close(&pMe->pData);
+     return 1;
+  }  
+/*---------------------------------------------------------------------------*/
+  static int LAKESHORE340Fix(pEVDriver self, int iError)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+        switch(iError)
+        {
+            /* network errors */
+            case EL734__BAD_FLUSH:
+            case EL734__BAD_RECV:
+            case EL734__BAD_RECV_NET:
+            case EL734__BAD_RECV_UNKN:
+            case EL734__BAD_RECVLEN:
+            case EL734__BAD_RECV1:
+            case EL734__BAD_RECV1_PIPE:
+            case EL734__BAD_RNG:
+            case EL734__BAD_SEND:
+            case EL734__BAD_SEND_PIPE:
+            case EL734__BAD_SEND_NET:
+            case EL734__BAD_SEND_UNKN:
+            case EL734__BAD_SENDLEN:
+                      LAKESHORE340Close(self);
+                      iRet = LAKESHORE340Init(self);
+                      if(iRet)
+                      {
+                        return DEVREDO;
+                      }                 
+                      else
+                      {
+                        return DEVFAULT;
+                      }                 
+                      break;
+            /* handable protocoll errors */
+            case EL734__BAD_TMO:
+                      return DEVREDO;
+                      break;
+            case -501: /* Bad_COM */
+                      return DEVREDO;
+            case -504: /* Badly formatted */
+                      return DEVREDO;                              
+            default:
+                      return DEVFAULT;
+                      break;                       
+        }
+        return DEVFAULT;
+  }
+     
+/*--------------------------------------------------------------------------*/
+  static int LAKESHORE340Halt(pEVDriver *self)
+  {
+     assert(self);
+     
+     return 1;
+  }
+/*------------------------------------------------------------------------*/
+  void KillLAKESHORE340(void *pData)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     
+     pMe = (pLAKESHORE340Driv)pData;
+     assert(pMe);
+     
+     if(pMe->pHost)
+     {
+        free(pMe->pHost);
+     }
+     free(pMe);
+  }  
+/*------------------------------------------------------------------------*/
+  pEVDriver CreateLAKESHORE340Driver(int argc, char *argv[])
+  {
+     pEVDriver pNew = NULL;
+     pLAKESHORE340Driv pSim = NULL;
+     
+     /* check for arguments */
+     if(argc < 3)
+     {
+       return NULL;
+     }
+     
+     pNew = CreateEVDriver(argc,argv);
+     pSim = (pLAKESHORE340Driv)malloc(sizeof(LAKESHORE340Driv));
+     memset(pSim,0,sizeof(LAKESHORE340Driv));
+     if(!pNew || !pSim)
+     {
+       return NULL;
+     }
+     pNew->pPrivate = pSim;
+     pNew->KillPrivate = KillLAKESHORE340;
+     
+     /* initalise pLAKESHORE340Driver */
+     pSim->iControl = atoi(argv[2]);
+     pSim->iRead = atoi(argv[1]);
+     pSim->iLastError = 0;
+     pSim->iTmo = 10;
+ 
+      /* The LAKESHORE340 doesn't require divisors or multipliers
+        and they are always forced to 1.0 */
+     pSim->fDiv = 1.0;
+     pSim->fMult = 1.0;
+     
+     pSim->pHost = strdup(argv[0]);
+     pSim->iPort = 0;
+     pSim->iChannel = 0;
+     
+     
+     /* initialise function pointers */
+     pNew->SetValue = LAKESHORE340Run;
+     pNew->GetValue = GetLAKESHORE340Pos;
+     pNew->Send     = LAKESHORE340Send;
+     pNew->GetError = LAKESHORE340Error;
+     pNew->TryFixIt = LAKESHORE340Fix;
+     pNew->Init     = LAKESHORE340Init;
+     pNew->Close    = LAKESHORE340Close;
+     
+     return pNew; 
+  }	
+/*--------------------------------------------------------------------------*/
+  int ConfigLAKESHORE340(pEVDriver self)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     iRet = LAKESHORE340_Config(&pMe->pData, pMe->iTmo, pMe->iRead, 
+                        pMe->iControl,pMe->fDiv,pMe->fMult);
+     if(iRet < 0)
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int SetSensorLAKESHORE340(pEVDriver self, int iSensor)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+     
+     /* The LAKESHORE340 allows bath temp, external temp and tank temp to be read
+        so allow iRead=1 to 4 for A,B,C,D respectively. */
+     if( (iSensor < 1) || (iSensor > 4) )
+     {
+        return 0;
+     } 
+     pMe->iRead = iSensor;
+     pMe->pData->iRead = iSensor;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int SetControlLAKESHORE340(pEVDriver self, int iSensor)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+	/* For the LAKESHORE340 allow selection of internal or external control
+	   where iControl==1 to 4 for A,B,C,D respectively. */
+     if( (iSensor < 1) || (iSensor > 4) )
+     {
+        return 0;
+     } 
+     pMe->iControl = iSensor;
+     pMe->pData->iControl = iSensor;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int SetTMOLAKESHORE340(pEVDriver self, int iSensor)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     if(iSensor < 10)
+     {
+        return 0;
+     } 
+     pMe->iTmo = iSensor;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int GetControlLAKESHORE340(pEVDriver self)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->iControl;
+  }
+/*-------------------------------------------------------------------------*/
+  int GetSensorLAKESHORE340(pEVDriver self)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->iRead;
+  }
+/*-------------------------------------------------------------------------*/
+  int GetTMOLAKESHORE340(pEVDriver self)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->iTmo;
+  }
+/*-------------------------------------------------------------------------*/
+  float GetDivisorLAKESHORE340(pEVDriver self)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->fDiv; /* but forced to 1.0 for LAKESHORE340, not used */
+  }
+/*--------------------------------------------------------------------------*/
+  int SetDivisorLAKESHORE340(pEVDriver self, float fDiv)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+	/* The LAKESHORE340 doesn't need divisor, force to 1.0 */
+     pMe->fDiv = 1.0; /* fDiv */;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  float GetMultLAKESHORE340(pEVDriver self)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->fMult; /* but forced to 1.0 for LAKESHORE340, not used */
+  }
+/*--------------------------------------------------------------------------*/
+  int SetMultLAKESHORE340(pEVDriver self, float fDiv)
+  {
+     pLAKESHORE340Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLAKESHORE340Driv )self->pPrivate;
+     assert(pMe);
+     
+	/* The LAKESHORE340 doesn't need multiplier, force to 1.0 */
+     pMe->fMult = 1.0; /* fDiv */;
+     return 1;
+  }
+  

site_ansto/lh45.c

@@ -0,0 +1,284 @@
+/*---------------------------------------------------------------------------
+                      L H 4 5
+	
+  This is the implementation for a LH45 object derived from an more general
+  environment controller.
+  
+  Mark Koennecke, August 1997
+  Mark Lesha, January 2006 (based on ITC4 code)
+  
+       Copyright:
+
+       Labor fuer Neutronenstreuung
+       Paul Scherrer Institut
+       CH-5423 Villigen-PSI
+
+
+      The authors hereby grant permission to use, copy, modify, distribute,
+      and license this software and its documentation for any purpose, provided
+      that existing copyright notices are retained in all copies and that this
+      notice is included verbatim in any distributions. No written agreement,
+      license, or royalty fee is required for any of the authorized uses.
+      Modifications to this software may be copyrighted by their authors
+      and need not follow the licensing terms described here, provided that
+      the new terms are clearly indicated on the first page of each file where
+      they apply.
+
+      IN NO EVENT SHALL THE AUTHORS OR DISTRIBUTORS BE LIABLE TO ANY PARTY
+      FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
+      ARISING OUT OF THE USE OF THIS SOFTWARE, ITS DOCUMENTATION, OR ANY
+      DERIVATIVES THEREOF, EVEN IF THE AUTHORS HAVE BEEN ADVISED OF THE
+      POSSIBILITY OF SUCH DAMAGE.
+
+      THE AUTHORS AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES,
+      INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY,
+      FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.  THIS SOFTWARE
+      IS PROVIDED ON AN "AS IS" BASIS, AND THE AUTHORS AND DISTRIBUTORS HAVE
+      NO OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR
+      MODIFICATIONS.
+----------------------------------------------------------------------------*/
+#include <string.h>
+#include <stdlib.h>
+#include <assert.h>
+#include <tcl.h>
+#include <fortify.h>
+#include <sics.h>
+#include <splitter.h>
+#include <obpar.h>
+#include <devexec.h>
+#include <nserver.h>
+#include <interrupt.h>
+#include <emon.h>
+#include <evcontroller.h>
+#include <evcontroller.i>
+#include "lh45.h"
+
+/*---------------------------------------------------------------------------*/
+  int LH45SetPar(pEVControl self, char *name, float fNew, SConnection *pCon)
+  {
+    int iRet;
+     
+     /* check authorsisation */
+     if(!SCMatchRights(pCon,usUser))
+     {
+       SCWrite(pCon,"ERROR: you are not authorised to change this parameter",
+               eError);
+       return 0;        
+     }
+     
+     /* just catch those three names which we understand */
+     if(strcmp(name,"sensor") == 0)
+     {
+       iRet = SetSensorLH45(self->pDriv,(int)fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLH45(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LH45 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"control") == 0)
+     {
+       iRet = SetControlLH45(self->pDriv,(int)fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLH45(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LH45 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"timeout") == 0)
+     {
+       iRet = SetTMOLH45(self->pDriv,(int)fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLH45(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LH45 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     /* Note divisors and multipliers will not be used with the LH45
+      but leave in for back compatibility */
+     else if(strcmp(name,"divisor") == 0)
+     {
+       iRet = SetDivisorLH45(self->pDriv,fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLH45(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LH45 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else if(strcmp(name,"multiplicator") == 0)
+     {
+       iRet = SetMultLH45(self->pDriv,fNew);
+       if(!iRet)
+       {
+         SCWrite(pCon,"ERROR: value out of range",eError);
+         return 0;
+       }
+       iRet = ConfigLH45(self->pDriv);
+       if(iRet != 1)
+       {
+          SCWrite(pCon,"ERROR: LH45 configuration failed! ",eError);
+          SCWrite(pCon,"INFO: Probably comm problem, Retry!",eError);
+          return 0;
+       }
+       SCSendOK(pCon);
+       return 1;
+     }
+     else
+         return EVCSetPar(self,name,fNew,pCon);
+  }
+/*--------------------------------------------------------------------------*/
+  int LH45GetPar(pEVControl self, char *name, float *fNew)
+  {
+    int iRet;
+    float fDiv;
+     
+     /* just catch those two names which we understand */
+     if(strcmp(name,"sensor") == 0)
+     {
+       iRet = GetSensorLH45(self->pDriv);
+       *fNew = (float)iRet;
+       return 1;
+     }
+     else if(strcmp(name,"control") == 0)
+     {
+       iRet = GetControlLH45(self->pDriv);
+       *fNew = (float)iRet;
+       return 1;
+     }
+     else if(strcmp(name,"timeout") == 0)
+     {
+       iRet = GetTMOLH45(self->pDriv);
+       *fNew = (float)iRet;
+       return 1;
+     }
+     else if(strcmp(name,"divisor") == 0)
+     {
+       fDiv = GetDivisorLH45(self->pDriv);
+       *fNew = fDiv;
+       return 1;
+     }
+     else if(strcmp(name,"multiplicator") == 0)
+     {
+       fDiv = GetMultLH45(self->pDriv);
+       *fNew = fDiv;
+       return 1;
+     }
+     else
+          return EVCGetPar(self,name,fNew);
+  }
+/*---------------------------------------------------------------------------*/
+  int LH45List(pEVControl self, SConnection *pCon)
+  {
+    char pBueffel[132];
+    int iRet;
+    
+    iRet = EVCList(self,pCon);
+    sprintf(pBueffel,"%s.sensor = %d\n",self->pName,
+            GetSensorLH45(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.control = %d\n",self->pName,
+            GetControlLH45(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.timeout  = %d\n",self->pName,
+            GetTMOLH45(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.divisor  = %f\n",self->pName,
+            GetDivisorLH45(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    sprintf(pBueffel,"%s.multiplicator  = %f\n",self->pName,
+            GetMultLH45(self->pDriv));
+    SCWrite(pCon,pBueffel,eValue);
+    return iRet;        
+  }
+/*-------------------------------------------------------------------------*/
+  int LH45Wrapper(SConnection *pCon, SicsInterp *pSics, void *pData,
+                  int argc, char *argv[])
+  {
+    pEVControl self = NULL;
+    char pBueffel[256];
+    int iRet;
+    double fNum;
+    float fVal;
+    
+    self = (pEVControl)pData;
+    assert(self);
+    assert(pCon);
+    assert(pSics);
+    
+    if(argc < 2)
+    {
+      return EVControlWrapper(pCon,pSics,pData,argc,argv);
+    }
+    
+    strtolower(argv[1]);
+    if((strcmp(argv[1],"sensor") == 0) || (strcmp(argv[1],"control") == 0) ||
+       (strcmp(argv[1],"timeout") == 0) || (strcmp(argv[1],"divisor") == 0) ||
+       (strcmp(argv[1],"multiplicator") == 0) )
+    {
+       if(argc > 2) /* set case */
+       {
+         iRet = Tcl_GetDouble(pSics->pTcl,argv[2],&fNum);
+         if(iRet != TCL_OK)
+         {
+           sprintf(pBueffel,"ERROR: expected number, got %s",argv[2]);
+           SCWrite(pCon,pBueffel,eError);
+           return 0;
+         }  
+         return LH45SetPar(self,argv[1],(float)fNum,pCon);
+       }
+       else /* get case */
+       {
+          iRet = LH45GetPar(self,argv[1],&fVal);
+          sprintf(pBueffel,"%s.%s = %f\n",self->pName,
+                  argv[1],fVal);
+          SCWrite(pCon,pBueffel,eValue);
+          return 1;
+       }
+    }
+    else if(strcmp(argv[1],"list") == 0)
+    { 
+      return LH45List(self,pCon);
+    }
+    else
+    {
+      return EVControlWrapper(pCon,pSics,pData,argc,argv);
+    }
+    /* not reached */
+    return 0; 
+  }  

site_ansto/lh45.h

@@ -0,0 +1,49 @@
+
+/*-------------------------------------------------------------------------
+                             LH 45
+ 
+  Support for Julabo LH45 Temperature controllers for SICS.
+  The meaning and working of the functions defined is as desribed for a
+  general environment controller.
+
+  Mark Koennecke, Juli 1997
+  Mark Lesha, January 2006 (based on ITC4 code)
+
+  copyright: see implementation file.
+
+-----------------------------------------------------------------------------*/
+#ifndef SICSLH45
+#define SICSLH45
+/*------------------------- The Driver ------------------------------------*/
+
+   pEVDriver CreateLH45Driver(int argc, char *argv[]);
+   int       ConfigLH45(pEVDriver self);
+   int       SetSensorLH45(pEVDriver self, int iSensor);
+   int       SetControlLH45(pEVDriver self, int iSensor);
+   int       GetSensorLH45(pEVDriver self);
+   int       GetControlLH45(pEVDriver self);
+   /* Divisors and multipliers should not be applicable to the LH45
+    since it uses floating point variables, but we leave the functions
+    in here anyway for the time being (setting will have no effect and
+    a value of 1.0 will always be returned. */
+   int       SetDivisorLH45(pEVDriver self, float iSensor);
+   float     GetDivisorLH45(pEVDriver self);
+   int       SetMultLH45(pEVDriver self, float iSensor);
+   float     GetMultLH45(pEVDriver self);
+   /* Leave in time-out functionality */
+   int       SetTMOLH45(pEVDriver self, int iSensor);
+   int       GetTMOLH45(pEVDriver self);
+
+
+/*------------------------- The LH45 object ------------------------------*/
+
+     int LH45Wrapper(SConnection *pCon, SicsInterp *pSics, void *pData,
+                     int argc, char *argv[]);
+     int LH45SetPar(pEVControl self, char *name, float fNew, 
+                   SConnection *pCon);
+     int LH45GetPar(pEVControl self, char *name, float *fVal);
+     int LH45List(pEVControl self, SConnection *pCon);
+
+
+#endif 
+ 

site_ansto/lh45driv.c

@@ -0,0 +1,489 @@
+/*--------------------------------------------------------------------------
+			     L H 4 5 D R I V
+
+     This file contains the implementation of a driver for the Julabo
+     LH45 Temperature controller.
+
+  
+      Mark Koennecke, Juli 1997
+      Mark Lesha, January 2006 (based on ITC4 code)
+
+       Copyright:
+
+       Labor fuer Neutronenstreuung
+       Paul Scherrer Institut
+       CH-5423 Villigen-PSI
+
+
+      The authors hereby grant permission to use, copy, modify, distribute,
+      and license this software and its documentation for any purpose, provided
+      that existing copyright notices are retained in all copies and that this
+      notice is included verbatim in any distributions. No written agreement,
+      license, or royalty fee is required for any of the authorized uses.
+      Modifications to this software may be copyrighted by their authors
+      and need not follow the licensing terms described here, provided that
+      the new terms are clearly indicated on the first page of each file where
+      they apply.
+
+      IN NO EVENT SHALL THE AUTHORS OR DISTRIBUTORS BE LIABLE TO ANY PARTY
+      FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
+      ARISING OUT OF THE USE OF THIS SOFTWARE, ITS DOCUMENTATION, OR ANY
+      DERIVATIVES THEREOF, EVEN IF THE AUTHORS HAVE BEEN ADVISED OF THE
+      POSSIBILITY OF SUCH DAMAGE.
+
+      THE AUTHORS AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES,
+      INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY,
+      FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.  THIS SOFTWARE
+      IS PROVIDED ON AN "AS IS" BASIS, AND THE AUTHORS AND DISTRIBUTORS HAVE
+      NO OBLIGATION TO PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR
+      MODIFICATIONS.
+----------------------------------------------------------------------------*/
+#include <string.h>
+#include <stdlib.h>
+#include <time.h>
+#include <math.h>
+#include <assert.h>
+#include <fortify.h>
+#include <conman.h>
+#include <servlog.h>
+#include <fortify.h>
+
+  typedef struct __EVDriver  *pEVDriver;
+
+#include <evdriver.i>  
+/* Do we need these ?
+#include <sics.h>
+#include <modriv.h>
+*/
+#include <rs232controller.h>
+#include "hardsup/lh45util.h"
+#include "hardsup/el734_def.h"
+#include "hardsup/el734fix.h"
+
+#define SHITTYVALUE -777
+/*------------------------- The Driver ------------------------------------*/
+
+   pEVDriver CreateLH45Driver(int argc, char *argv[]);
+      int       ConfigLH45(pEVDriver self);
+      
+      
+/*-----------------------------------------------------------------------*/
+  typedef struct {
+                   pLH45 pData;
+                   char *pHost;
+                   int iPort;
+                   int iChannel;
+                   int iControl; /* LH45 control */
+                   float fDiv;
+                   float fMult;
+                   int iRead; /* LH45 sensor */
+                   int iTmo;
+                   int iLastError;
+                  } LH45Driv, *pLH45Driv;
+/*----------------------------------------------------------------------------*/
+  static int GetLH45Pos(pEVDriver  self, float *fPos)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv)self->pPrivate;
+     assert(pMe);
+   
+     iRet = LH45_Read(&pMe->pData,fPos);     
+     if(iRet <= 0 )
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     if( (*fPos < 0) || (*fPos > 10000) )
+     {
+       *fPos = -999.;
+       pMe->iLastError = SHITTYVALUE;
+       return 0;
+     }
+     return 1;
+  } 
+/*----------------------------------------------------------------------------*/
+  static int LH45Run(pEVDriver self, float fVal)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     iRet  = LH45_Set(&pMe->pData,fVal);
+     if(iRet != 1)
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     return 1;
+ }
+/*--------------------------------------------------------------------------*/
+  static int LH45Error(pEVDriver self, int *iCode, char *error, int iErrLen)
+  {
+     pLH45Driv pMe = NULL;
+     
+     assert(self);
+     pMe = (pLH45Driv)self->pPrivate;
+     assert(pMe);
+
+     *iCode = pMe->iLastError;
+     if(pMe->iLastError == SHITTYVALUE)
+     {
+       strncpy(error,"Invalid temperature returned form LH45, check sensor",iErrLen);
+     }
+     else
+     {
+        LH45_ErrorTxt(&pMe->pData,pMe->iLastError,error,iErrLen);    
+     }
+    return 1;
+  }
+/*--------------------------------------------------------------------------*/
+  static int LH45Send(pEVDriver self, char *pCommand, char *pReply, int iLen)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     iRet  = LH45_Send(&pMe->pData,pCommand, pReply,iLen);
+     if(iRet <= 0)
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     return 1;
+
+  }  
+/*--------------------------------------------------------------------------*/
+  static int LH45Init(pEVDriver self)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     pMe->pData = NULL;
+     iRet = LH45_Open(&pMe->pData, pMe->pHost, pMe->iRead, pMe->iControl,0);
+     if(iRet != 1)
+     {
+       if(iRet == LH45__NOLH45)
+       {
+         return -1;
+       }
+       else
+       {
+         pMe->iLastError = iRet;
+         return 0;
+       }  
+     }
+     return 1;
+  }  
+/*--------------------------------------------------------------------------*/
+  static int LH45Close(pEVDriver self)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     LH45_Close(&pMe->pData);
+     return 1;
+  }  
+/*---------------------------------------------------------------------------*/
+  static int LH45Fix(pEVDriver self, int iError)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+        switch(iError)
+        {
+            /* network errors */
+            case EL734__BAD_FLUSH:
+            case EL734__BAD_RECV:
+            case EL734__BAD_RECV_NET:
+            case EL734__BAD_RECV_UNKN:
+            case EL734__BAD_RECVLEN:
+            case EL734__BAD_RECV1:
+            case EL734__BAD_RECV1_PIPE:
+            case EL734__BAD_RNG:
+            case EL734__BAD_SEND:
+            case EL734__BAD_SEND_PIPE:
+            case EL734__BAD_SEND_NET:
+            case EL734__BAD_SEND_UNKN:
+            case EL734__BAD_SENDLEN:
+                      LH45Close(self);
+                      iRet = LH45Init(self);
+                      if(iRet)
+                      {
+                        return DEVREDO;
+                      }                 
+                      else
+                      {
+                        return DEVFAULT;
+                      }                 
+                      break;
+            /* handable protocoll errors */
+            case EL734__BAD_TMO:
+                      return DEVREDO;
+                      break;
+            case -501: /* Bad_COM */
+                      return DEVREDO;
+            case -504: /* Badly formatted */
+                      return DEVREDO;                              
+            default:
+                      return DEVFAULT;
+                      break;                       
+        }
+        return DEVFAULT;
+  }
+     
+/*--------------------------------------------------------------------------*/
+  static int LH45Halt(pEVDriver *self)
+  {
+     assert(self);
+     
+     return 1;
+  }
+/*------------------------------------------------------------------------*/
+  void KillLH45(void *pData)
+  {
+     pLH45Driv pMe = NULL;
+     
+     pMe = (pLH45Driv)pData;
+     assert(pMe);
+     
+     if(pMe->pHost)
+     {
+        free(pMe->pHost);
+     }
+     free(pMe);
+  }  
+/*------------------------------------------------------------------------*/
+  pEVDriver CreateLH45Driver(int argc, char *argv[])
+  {
+     pEVDriver pNew = NULL;
+     pLH45Driv pSim = NULL;
+     
+     /* check for arguments */
+     if(argc < 3)
+     {
+       return NULL;
+     }
+     
+     pNew = CreateEVDriver(argc,argv);
+     pSim = (pLH45Driv)malloc(sizeof(LH45Driv));
+     memset(pSim,0,sizeof(LH45Driv));
+     if(!pNew || !pSim)
+     {
+       return NULL;
+     }
+     pNew->pPrivate = pSim;
+     pNew->KillPrivate = KillLH45;
+     
+     /* initalise pLH45Driver */
+     pSim->iControl = atoi(argv[2]);
+     pSim->iRead = atoi(argv[1]);
+     pSim->iLastError = 0;
+     pSim->iTmo = 10;
+ 
+      /* The LH45 doesn't require divisors or multipliers
+        and they are always forced to 1.0 */
+     pSim->fDiv = 1.0;
+     pSim->fMult = 1.0;
+     
+     pSim->pHost = strdup(argv[0]);
+     pSim->iPort = 0;
+     pSim->iChannel = 0;
+     
+     
+     /* initialise function pointers */
+     pNew->SetValue = LH45Run;
+     pNew->GetValue = GetLH45Pos;
+     pNew->Send     = LH45Send;
+     pNew->GetError = LH45Error;
+     pNew->TryFixIt = LH45Fix;
+     pNew->Init     = LH45Init;
+     pNew->Close    = LH45Close;
+     
+     return pNew; 
+  }	
+/*--------------------------------------------------------------------------*/
+  int ConfigLH45(pEVDriver self)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     iRet = LH45_Config(&pMe->pData, pMe->iTmo, pMe->iRead, 
+                        pMe->iControl,pMe->fDiv,pMe->fMult);
+     if(iRet < 0)
+     {
+       pMe->iLastError = iRet;
+       return 0;
+     }
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int SetSensorLH45(pEVDriver self, int iSensor)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+     
+     /* The LH45 allows bath temp, external temp and tank temp to be read
+        so allow iRead=1 to 3 for each of these respectively */
+     if( (iSensor < 1) || (iSensor > 3) )
+     {
+        return 0;
+     } 
+     pMe->iRead = iSensor;
+     pMe->pData->iRead = iSensor;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int SetControlLH45(pEVDriver self, int iSensor)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+	/* For the LH45 allow selection of internal or external control
+	   where iControl==1 or 2 respectively */
+     if( (iSensor < 1) || (iSensor > 2) )
+     {
+        return 0;
+     } 
+     pMe->iControl = iSensor;
+     pMe->pData->iControl = iSensor;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int SetTMOLH45(pEVDriver self, int iSensor)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     if(iSensor < 10)
+     {
+        return 0;
+     } 
+     pMe->iTmo = iSensor;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  int GetControlLH45(pEVDriver self)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->iControl;
+  }
+/*-------------------------------------------------------------------------*/
+  int GetSensorLH45(pEVDriver self)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->iRead;
+  }
+/*-------------------------------------------------------------------------*/
+  int GetTMOLH45(pEVDriver self)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->iTmo;
+  }
+/*-------------------------------------------------------------------------*/
+  float GetDivisorLH45(pEVDriver self)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->fDiv; /* but forced to 1.0 for LH45, not used */
+  }
+/*--------------------------------------------------------------------------*/
+  int SetDivisorLH45(pEVDriver self, float fDiv)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+	/* The LH45 doesn't need divisor, force to 1.0 */
+     pMe->fDiv = 1.0; /* fDiv */;
+     return 1;
+  }
+/*-------------------------------------------------------------------------*/
+  float GetMultLH45(pEVDriver self)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+
+     return pMe->fMult; /* but forced to 1.0 for LH45, not used */
+  }
+/*--------------------------------------------------------------------------*/
+  int SetMultLH45(pEVDriver self, float fDiv)
+  {
+     pLH45Driv pMe = NULL;
+     int iRet;
+     
+     assert(self);
+     pMe = (pLH45Driv )self->pPrivate;
+     assert(pMe);
+     
+	/* The LH45 doesn't need multiplier, force to 1.0 */
+     pMe->fMult = 1.0; /* fDiv */;
+     return 1;
+  }
+  

site_ansto/make_gen_variables

@@ -0,0 +1,34 @@
+# vim: ft=make ts=4 sw=4 noet cindent
+COBJ = Sclient.o network.o ifile.o   intcli.o $(FORTIFYOBJ)  
+SOBJ =  network.o ifile.o conman.o SCinter.o splitter.o passwd.o \
+       servlog.o sicvar.o nserver.o SICSmain.o motorlist.o\
+       sicsexit.o  costa.o task.o $(FORTIFYOBJ)\
+       macro.o ofac.o obpar.o obdes.o drive.o status.o intserv.o \
+       devexec.o mumo.o mumoconf.o selector.o selvar.o fupa.o lld.o \
+       lld_blob.o  strrepl.o lin2ang.o fomerge.o \
+       script.o o2t.o  alias.o napi.o napi5.o nxdata.o stringdict.o sdynar.o \
+       histmem.o histdriv.o histsim.o  interface.o callback.o \
+        event.o emon.o evcontroller.o evdriver.o simev.o perfmon.o \
+       danu.o  nxdict.o varlog.o stptok.o nread.o trigd.o cell.o\
+       scan.o fitcenter.o telnet.o token.o  wwildcard.o hklmot.o\
+       tclev.o hkl.o integrate.o optimise.o dynstring.o nxutil.o \
+       mesure.o uubuffer.o  commandlog.o udpquieck.o fourtable.o\
+       rmtrail.o  help.o nxupdate.o confvirtualmot.o vector.o\
+       simchop.o choco.o chadapter.o  trim.o scaldate.o tasub.o\
+       hklscan.o xytable.o   exebuf.o exeman.o ubfour.o ubcalc.o\
+       circular.o  maximize.o sicscron.o  scanvar.o tasublib.o\
+       d_sign.o d_mod.o tcldrivable.o stdscan.o diffscan.o \
+       synchronize.o definealias.o  oscillate.o tasdrive.o \
+       hmcontrol.o userscan.o  rs232controller.o lomax.o tasscanub.o \
+       fourlib.o motreg.o motreglist.o anticollider.o nxdataset.o \
+       s_rnge.o sig_die.o gpibcontroller.o $(NIOBJ) mcreader.o mccontrol.o\
+       hmdata.o  nxscript.o  tclintimpl.o sicsdata.o mcstascounter.o \
+       mcstashm.o initializer.o remob.o tclmotdriv.o protocol.o \
+       sinfox.o sicslist.o cone.o $(EXTRA) 
+ 
+MOTOROBJ = motor.o  simdriv.o  
+COUNTEROBJ =  countdriv.o simcter.o counter.o
+VELOOBJ    = velo.o velosim.o 
+
+COREOBJ = $(SOBJ) $(MOTOROBJ) $(COUNTEROBJ) $(VELOOBJ) 
+

site_ansto/motor_asim.c

@@ -0,0 +1,655 @@
+/*-----------------------------------------------------------------------------
+
+  Based on SINQ code 1996-2003 by Mark Koennecke
+  
+  Modifications: Paul Hathaway April 2004
+    SimRun failure rate independent of polling rate
+    Fault condition determined at initial drive command and reported
+    at appropriate time:
+        ASIM_NO_FAULT - run to destination, report no error (OKOK,HWIdle)
+        ASIM_HW_FAULT - no movement, report HWFault
+        ASIM_POS_FAULT - run to error position, report no error (OKOK,HWIdle)
+        ASIM_STALL_FAULT - run to stall position, report HWFault
+
+  Copyright: See COPYRIGHT.txt
+
+  Instrument definition file usage:
+  Motor motname ASIM lowerlimit upperlimit failpercent [speed]
+  
+----------------------------------------------------------------------------*/
+#include <stdlib.h>
+#include <assert.h>
+#include <string.h>
+#include <time.h>
+#include <math.h>
+
+/* SICS kernel declarations */
+#include "sics.h"
+#include "modriv.h" /* includes abstract motor defn */
+#include "fortify.h"
+#include "conman.h"
+#include "servlog.h"
+#include "splitter.h"
+#include "SCinter.h"
+
+/* #include "motor_driver.h" */
+/* Ansto-specific simulation driver */
+/* #include "sim_motor.h" */
+#include "motor_asim.h"
+
+/* ----------------------- Simulation -----------------------------------*/
+/* #ifndef SICS_ANSTO_MOTOR_ASIM */
+#define SICS_ANSTO_MOTOR_ASIM 
+#define MAX_LONG 2147483647
+
+/* device internal status and error codes */
+/*      BUSY - motor in motion toward target 
+ *      IDLE - movement complete, normal condition
+ *      FAULT - no motion, motor awaiting reset
+ *      CRASH - no motion, unable to recover
+ */
+#define ASIM_BUSY 1
+#define ASIM_IDLE 2
+#define ASIM_FAULT 3
+#define ASIM_CRASH 4
+
+ /* the first fields of ASIMDriv structure HAVE to be IDENTICAL to the 
+  * abstract motor driver structure in modriv.h (motor_driver.h)
+  */                                
+
+  typedef struct ___MoDriv {
+    /* general motor driver interface fields. REQUIRED! */
+        float fUpper; /* upper limit */
+        float fLower; /* lower limit */
+        char *name;
+        int   (*GetPosition)(void *self,float *fPos);
+        int   (*RunTo)(void *self, float fNewVal);
+        int   (*GetStatus)(void *self);
+        void  (*GetError)(void *self, int *iCode, char *buffer, int iBufLen);
+        int   (*TryAndFixIt)(void *self,int iError, float fNew);
+        int   (*Halt)(void *self);
+        int   (*GetDriverPar)(void *self, char *name, float *value);
+        int   (*SetDriverPar)(void *self,SConnection *pCon, char *name, 
+                float newValue);
+        void  (*ListDriverPar)(void *self, char *motorName, SConnection *pCon);
+        void  (*KillPrivate)(void *self);
+                           
+        /* ASIM-specific fields */
+        float fFailure;   /* percent random failures */
+        int   iFaultType; /* used internally and for debugging */
+        float fSpeed;
+        long  iDuration;  /* expected duration of move (secs) */
+        long  iTime;      /* expected completion time (secs since 1969) */
+        long  iRunningTime; /* time (sec) running current move */
+        long  iLastPollTime;
+        float fPos;       /* simulated current position */
+        float fTarget;    /* simulation target position including fault */
+        float fDestination; /* requested final position */
+        int   iStatus;
+  } ASIMDriv;
+
+/* fault types */
+#define ASIM_NO_FAULT 0
+#define ASIM_HW_FAULT 1
+#define ASIM_POS_FAULT 2
+#define ASIM_STALL_FAULT 3
+
+/* thresholds for determining relative proportion of fault types   */
+/*static const float TH_HW_FAULT = 20.0;    /* ie (20-0) % of faults */
+/*static const float TH_STALL_FAULT = 40.0; /* ie (40-20)% of faults */
+/*static const float TH_POS_FAULT = 100.0;  /* ie remaining faults   */
+
+/*static const float MIN_SPEED = 0.0001; */
+
+#define TH_HW_FAULT 20.0
+#define TH_STALL_FAULT 40.0
+#define TH_POS_FAULT 100.0
+#define MIN_SPEED 0.0001
+
+/* void KillASIM(void *pData); */
+static void UpdateRunningTime(ASIMDriv *);
+static void UpdatePosition(ASIMDriv *);
+static float SimRandom(void);
+static int SimHalt(void *);
+static int RunComplete(ASIMDriv *);
+static int SimGetPos(void *, float *);
+static int SimRun(void *, float);
+static void SimError(void *self, int *iCode, char *error, int iErrLen);
+static int SimFix(void *self, int iError, float fNew);
+static int SimHalt(void *self);
+static int SimStat(void *self);
+
+/*-------------------------------------------------------------------------*/
+  static float SimRandom(void)
+  {
+    float fVal;
+    fVal = ( (float) rand() / (float)RAND_MAX ) * 100.0;
+    return fVal;
+  }
+/*---------------------------------------------------------------------------*/
+  static void UpdateRunningTime(ASIMDriv *pDriv)
+  {
+    time_t tD;
+
+    time(&tD); /* This fn valid between Jan 1970 and Jan 2038 */
+    if (ASIM_BUSY == pDriv->iStatus)
+    {
+        pDriv->iRunningTime += ((long)tD - pDriv->iLastPollTime);
+    }
+    pDriv->iLastPollTime = (long)tD;
+  }   
+/*----------------------------------------------------------------------------*/
+  static void UpdatePosition(ASIMDriv *pDriv)
+  {
+    float fDirn = 1.0;
+    UpdateRunningTime(pDriv);
+    switch (pDriv->iStatus)
+    {
+        case ASIM_BUSY:
+	        if (pDriv->iRunningTime >= pDriv->iDuration)
+		    {
+	            switch (pDriv->iFaultType)
+	            {
+	                case ASIM_POS_FAULT: /* no break */
+	                case ASIM_NO_FAULT: 
+	                    pDriv->fPos = pDriv->fTarget;
+	                    pDriv->iStatus = ASIM_IDLE;
+	                    break;
+                    default : 
+                        pDriv->iFaultType = ASIM_HW_FAULT; /* no break */
+	                case ASIM_HW_FAULT:
+	                    pDriv->iStatus = ASIM_FAULT;
+	                    break;
+	                case ASIM_STALL_FAULT:
+	                    pDriv->fPos = pDriv->fTarget;
+	                    pDriv->iStatus = ASIM_FAULT;                    
+	                    break;
+	            }
+		    }
+	        else /* Running. Calculate intermediate position */
+	        {
+	            switch (pDriv->iFaultType)
+	            {
+	                case ASIM_POS_FAULT:
+	                case ASIM_NO_FAULT: 
+	                case ASIM_STALL_FAULT:
+                        if (pDriv->fTarget < pDriv->fPos) {
+							fDirn = -1.0;
+						} else fDirn = 1.0;
+	                    pDriv->fPos = pDriv->fTarget - fDirn * pDriv->fSpeed * (pDriv->iDuration - pDriv->iRunningTime);
+	                    pDriv->iStatus = ASIM_BUSY;
+	                    break;
+	                case ASIM_HW_FAULT:
+	                    pDriv->iStatus = ASIM_FAULT;
+	                    break;
+	                default: break; /* error: unknown fault type */
+	            }
+	        }
+            break;
+        case ASIM_FAULT:
+        case ASIM_IDLE:
+        case ASIM_CRASH:
+        default: break;
+    }    
+  }
+/*---------------------------------------------------------------------------*/
+  static int RunComplete(ASIMDriv *pDriv)
+  {
+    UpdatePosition(pDriv);
+    if(ASIM_BUSY!=pDriv->iStatus) return 1; else return 0;
+  }
+/*----------------------------------------------------------------------------*/
+  static int SimGetPos(void *self, float *fPos)
+  {
+    int motCode = OKOK;
+    ASIMDriv *pDriv;
+    assert(self);
+    pDriv = (ASIMDriv *)self;
+    UpdatePosition(pDriv);
+    *fPos = pDriv->fPos;
+    switch (pDriv->iStatus)
+    {
+        case ASIM_IDLE: /* no break */
+        case ASIM_BUSY:
+                        motCode = OKOK;
+                        break;
+        default:
+        case ASIM_CRASH:
+        case ASIM_FAULT:
+                        motCode = HWFault;
+                        break;
+    }    
+    return motCode;
+  } 
+/*----------------------------------------------------------------------------*/
+  static int SimRun(void *self, float fVal)
+  {
+    ASIMDriv *pDriv;
+    float fDiff;
+    float fFault;
+    int   iSucceed;
+    float fDirection;
+    float fDelta;
+    float fDuration;
+    time_t tD;
+    
+    assert(self);
+    pDriv = (ASIMDriv *)self;
+
+    switch (pDriv->iStatus)
+    {
+        case ASIM_IDLE:     pDriv->iStatus = ASIM_BUSY;
+        case ASIM_BUSY:   break; 
+        default:                      pDriv->iStatus = ASIM_CRASH; 
+        case ASIM_CRASH:
+        case ASIM_FAULT:  return HWFault;
+                                           break;
+    }
+    
+    /* New run command */
+    /* Determine desired distance and direction (fDiff >= 0.0)*/
+    pDriv->fDestination = fVal;
+    fDiff = fVal - pDriv->fPos;
+    if(0.0 > fDiff) 
+    {
+        fDiff = -fDiff;
+        fDirection = -1.0;
+    }
+    else
+        fDirection = 1.0;
+
+    /* Determine whether fault will occur */
+    if ((0.0 >= pDriv->fFailure)||(SimRandom() > pDriv->fFailure))
+        iSucceed = 1;
+    else
+        iSucceed = 0;
+        
+    /* Determine delta from actual target by fault mode */
+    if (0 == iSucceed)
+    {
+        fFault = SimRandom();
+        if ((TH_HW_FAULT > fFault)||(HWFault==pDriv->iStatus))
+        {   /* fail as soon as possible */
+            pDriv->iStatus = ASIM_FAULT;
+            pDriv->iFaultType = ASIM_HW_FAULT;
+            fDelta = -fDiff;
+        }
+        else 
+        {
+            if (TH_STALL_FAULT > fFault) 
+	        {   /* stall before 80% complete */
+                pDriv->iFaultType = ASIM_STALL_FAULT;
+	            fDelta = (-1.0) * fDiff * (0.2 + SimRandom()/125.0);
+	        }
+    	    else 
+            {   /* position fault to +/- 10% */
+                pDriv->iFaultType = ASIM_POS_FAULT;
+                fDelta = fDiff * SimRandom()/1000.0;
+                if (50.0 > SimRandom()) fDelta = -fDelta;
+            }
+        }
+    }
+    else /* no failure */
+    {
+        pDriv->iFaultType = ASIM_NO_FAULT;
+        fDelta = 0.0;
+    }
+
+    /* Calculate target and time using speed */
+    if (pDriv->fSpeed >= MIN_SPEED)
+    {
+        fDiff = fDiff + fDelta;           
+        fDuration = fDiff/(pDriv->fSpeed);
+        if (fDuration > MAX_LONG) 
+            pDriv->iDuration = 2000000000;
+        else
+            pDriv->iDuration = (long)fDuration;
+    }
+    else
+    {
+        fDiff = 0.0;
+        pDriv->iDuration = 0;
+    }
+    pDriv->fTarget = pDriv->fPos + fDirection * fDiff;
+    pDriv->iRunningTime = 0;
+    pDriv->iLastPollTime = time(&tD);
+    pDriv->iTime = tD + pDriv->iDuration;
+    
+    if(ASIM_BUSY==pDriv->iStatus)
+            return OKOK;
+    else
+            return HWFault;
+
+  } /* SimRun */
+  
+/*--------------------------------------------------------------------------*/
+/* iErrLen fixed to 131 in fn [reportAndFixError] of <motor.c>
+ * iCode reported to SimFix via [reportAndFixError]
+ */
+  static void SimError(void *self, int *iCode, char *error, int iErrLen)
+  {
+    int motCode = HWFault;
+    ASIMDriv *pDriv;
+    
+    assert(self);
+    pDriv = (ASIMDriv *)self;
+
+    switch (pDriv->iStatus)
+    {
+        case ASIM_IDLE:   motCode = HWIdle; break;
+        case ASIM_BUSY:   motCode = HWBusy; break; 
+        case ASIM_CRASH:
+        case ASIM_FAULT:  
+        default:          motCode = HWFault; break;
+    }
+    
+    *iCode = pDriv->iFaultType;
+    
+    switch (pDriv->iFaultType)
+    {
+        case ASIM_POS_FAULT:
+            strncpy(error,"ERROR: ASIM Position Fault",iErrLen);
+            break;
+        case ASIM_NO_FAULT: 
+            strncpy(error,"STATUS: ASIM No Fault",iErrLen);
+            break;
+        case ASIM_HW_FAULT:
+            strncpy(error,"ERROR: ASIM Motor Hardware Fault",iErrLen);
+            break;
+        case ASIM_STALL_FAULT:
+            strncpy(error,"ERROR: ASIM Motor Stall",iErrLen);
+            break;
+        default: /* error: unknown fault type */
+            strncpy(error,"ERROR: Unknown fault type",iErrLen);
+            break;
+    }
+    assert(strlen(error)<131);
+  } /* SimError */
+  
+/*---------------------------------------------------------------------------*/
+  static int SimFix(void *self, int iError, float fNew)
+  {
+    ASIMDriv *pDriv;
+    int iRet;
+    float fRand;
+
+    assert(self);
+    pDriv = (ASIMDriv *)self;    
+ 
+    switch (pDriv->iStatus)
+    {
+        case ASIM_IDLE: 
+                switch (pDriv->iFaultType)
+                {
+                        case ASIM_POS_FAULT:   return MOTOK;
+                        case ASIM_NO_FAULT:    return MOTOK;
+                        case ASIM_HW_FAULT:    return MOTFAIL;
+                        case ASIM_STALL_FAULT: return MOTREDO;
+                        default: return MOTFAIL; /* error: unknown fault type */
+                }
+                break;
+        case ASIM_BUSY:  return MOTOK;   break; 
+        case ASIM_CRASH: return MOTFAIL; break;
+        case ASIM_FAULT:  
+                SimHalt(self);
+                if(TH_HW_FAULT >= SimRandom()) 
+                {
+                    pDriv->iStatus = ASIM_CRASH;
+                    return MOTFAIL;
+                }
+                pDriv->iStatus = ASIM_IDLE;
+                pDriv->iFaultType = ASIM_NO_FAULT;
+                return MOTOK;
+                break;
+        default:      
+                pDriv->iStatus = ASIM_CRASH; 
+                pDriv->iFaultType = ASIM_HW_FAULT;
+                return MOTFAIL;
+    } 
+/*    SICSLogWrite("Attempt fix for simulated motor",eHWError); */
+  } /* SimFix */
+
+/*--------------------------------------------------------------------------*/
+  static int SimHalt(void *self)
+  {
+    int motCode = OKOK;
+    ASIMDriv *pDriv;
+    assert(self);
+    
+    pDriv = (ASIMDriv *)self;
+    UpdatePosition(pDriv);
+    pDriv->iTime = 0;
+    pDriv->iDuration = 0;
+    pDriv->fTarget = pDriv->fPos;
+    pDriv->fDestination = pDriv->fPos;
+    switch (pDriv->iStatus)
+    {
+        case ASIM_BUSY: pDriv->iStatus = ASIM_IDLE;
+        case ASIM_IDLE: motCode = OKOK;
+                        break;
+        default:        motCode = HWFault;
+                        break;
+    }
+    return motCode;
+  }
+/*--------------------------------------------------------------------------*/
+  static int SimStat(void *self)
+  {
+    int motCode = HWIdle;
+    ASIMDriv *pDriv;
+    assert(self);
+    pDriv = (ASIMDriv *)self;
+
+    UpdatePosition(pDriv);    
+    switch (pDriv->iStatus)
+    {
+        case ASIM_BUSY: motCode = HWBusy;  break;
+        case ASIM_IDLE: motCode = HWIdle;  break;
+        default:        motCode = HWFault; break;
+    }
+    return motCode;
+  }
+/*-----------------------------------------------------------------------*/
+static int SimSetPar(void *self, SConnection *pCon, char *name, float newValue)
+{
+  int iSuccess = 0;
+  ASIMDriv *pDriv = (ASIMDriv *) self;
+
+  assert(self);
+  assert(pCon);
+
+  if(strcmp(name,"hardupperlim") == 0)
+  {
+    pDriv->fUpper = newValue;
+    iSuccess = 1;
+  }
+  if(strcmp(name,"hardlowerlim") == 0)
+  {
+    pDriv->fLower = newValue;
+    iSuccess = 1;
+  }
+  if(strcmp(name,"speed") == 0)
+  {
+    pDriv->fSpeed = newValue;
+    iSuccess = 1;
+  } 
+  return iSuccess;
+}
+
+/*-----------------------------------------------------------------------*/
+static int SimGetPar(void *self, char *name, float *value)
+{
+    int iSuccess = 0;
+    ASIMDriv *pDriv = (ASIMDriv *) self;
+    assert(self);
+
+    if (0==strcmp("hardupperlim",name))
+    {
+        *value = pDriv->fUpper;
+        iSuccess = 1;
+    }
+    if (0==strcmp("hardlowerlim",name))
+    {
+        *value = pDriv->fLower;
+        iSuccess=1;
+    }
+    return iSuccess;
+}
+
+/*-----------------------------------------------------------------------*/
+static void SimListPar(void *self, char *motorName, SConnection *pCon)
+{
+    ASIMDriv *pDriv = (ASIMDriv *) self;
+    char pBuffer[256];
+    
+    assert(self);
+    assert(pCon);
+
+    sprintf(pBuffer,"%s.%s = %f",motorName,"hardupperlim",pDriv->fUpper);
+    SCWrite(pCon,pBuffer,eValue);
+    sprintf(pBuffer,"%s.%s = %f",motorName,"hardlowerlim",pDriv->fLower);
+    SCWrite(pCon,pBuffer,eValue);
+}
+
+/*---------------------------------------------------------------------------*/
+ static void SimKill(void *pData)
+{
+  /*
+    the controller is owned by the controller object and will be
+    deleted when that object is removed
+  */
+    return;
+}
+ 
+/*--------------------------------------------------------------------------*/
+MotorDriver *CreateASIM(SConnection *pCon, int argc, char *argv[])
+{
+    TokenList *pList = NULL;
+    TokenList *pCurrent;
+    ASIMDriv *pDriv = NULL;
+    time_t tD;
+     
+    assert(pCon);
+     
+    /* check number of arguments */
+    if(argc < 3)
+    {
+        SCWrite(pCon,"Insufficient numbers of arguments for ASIM Motor",eError);
+        return NULL;
+    }
+     
+     /* split arguments */
+     pList = SplitArguments(argc, argv);
+     if(!pList)
+     {
+       SCWrite(pCon,"Error parsing arguments in ASIM Motor",eError);
+       return NULL;
+     }
+     
+     /* allocate memory */
+     pDriv = (ASIMDriv *)malloc(sizeof(ASIMDriv));
+     if(!pDriv)
+     {
+       SCWrite(pCon,"Error allocating memory in ASIM Motor",eError);
+       DeleteTokenList(pList);
+       return NULL;
+     }
+     memset(pDriv,0,sizeof(ASIMDriv));
+     
+     /* check and enter args, first lowerLimit */
+     pCurrent = pList;
+     if(pCurrent->Type == eInt)
+     {
+       pDriv->fLower = (float)pCurrent->iVal;
+     }
+     else if(pCurrent->Type == eFloat)
+     {
+       pDriv->fLower = pCurrent->fVal;
+     }
+     else
+     {
+       SCWrite(pCon,"ERROR: Expect numerical 'lower limit' at argument 1 after Motor ASIM",eError);
+       free(pDriv);
+       DeleteTokenList(pList);
+       return NULL;
+     }
+
+     /* then, upper limit */     
+     pCurrent = pCurrent->pNext;
+     if(pCurrent->Type == eInt)
+     {
+       pDriv->fUpper = (float)pCurrent->iVal;
+     }
+     else if(pCurrent->Type == eFloat)
+     {
+       pDriv->fUpper = pCurrent->fVal;
+     }
+     else
+     {
+       SCWrite(pCon,"ERROR: Expect numerical 'upper limit' at argument 2 after Motor ASIM",eError);
+       free(pDriv);
+       DeleteTokenList(pList);
+       return NULL;
+     }
+     
+     /* thirdly, failure rate */
+     pCurrent = pCurrent->pNext;
+     if(pCurrent->Type == eInt)
+     {
+       pDriv->fFailure = (float)pCurrent->iVal;
+     }
+     else if(pCurrent->Type == eFloat)
+     {
+       pDriv->fFailure = pCurrent->fVal;
+     }
+     else
+     {
+       SCWrite(pCon,"ERROR: Expect numerical 'failure rate' at argument 3 after Motor ASIM",eError);
+       free(pDriv);
+       DeleteTokenList(pList);
+       return NULL;
+     }
+    
+    /* calculate current position, initialise func pters */
+    pDriv->fPos = (pDriv->fUpper + pDriv->fLower)/2.0;
+    /*     pDriv->name = strdup("SICS_ANSTO_MOTOR_ASIM"); */    
+    pDriv->name = malloc((1+strlen("SICS_ANSTO_MOTOR_ASIM"))*sizeof(char));
+    strcpy(pDriv->name,"SICS_ANSTO_MOTOR_ASIM");
+    
+    pDriv->GetPosition = SimGetPos;
+    pDriv->RunTo = SimRun;
+    pDriv->GetStatus = SimStat;
+    pDriv->GetError = SimError;
+    pDriv->TryAndFixIt = SimFix;
+    pDriv->Halt = SimHalt;
+    pDriv->SetDriverPar = SimSetPar;
+    pDriv->GetDriverPar = SimGetPar;
+    pDriv->ListDriverPar = SimListPar;
+    pDriv->KillPrivate = SimKill;
+     
+    /* set default parameters */
+    pDriv->fSpeed = 0.01;
+    pDriv->iTime = time(&tD);
+    pDriv->iFaultType = ASIM_NO_FAULT;
+    pDriv->iDuration = 0;
+    pDriv->iRunningTime = 0;
+    pDriv->iLastPollTime = pDriv->iTime;
+    pDriv->fTarget = pDriv->fPos;
+    pDriv->fDestination = pDriv->fPos;
+    pDriv->iStatus = OKOK;
+    
+    srand( (unsigned)time( NULL ) );
+
+    /* check for optional speed paramter */
+    pCurrent = pCurrent->pNext;
+    if(pCurrent)
+    {
+        if(pCurrent->Type == eFloat)
+        {
+            pDriv->fSpeed = pCurrent->fVal;
+            if(pDriv->fSpeed < 0.0) pDriv->fSpeed = 0.0 - pDriv->fSpeed;
+        }
+    }
+    DeleteTokenList(pList);
+    return (MotorDriver *)pDriv;
+}

site_ansto/motor_asim.h

@@ -0,0 +1,17 @@
+/*--------------------------------------------------------------------------
+ *      motor_asim.h
+
+ Header file for ANSTO Simulation Motor
+ Based on SINQ "modriv.h" for EL734 motor driver by Mark Koennecke 1996
+ Modifications Paul Hathaway April 2004
+
+ Copyright: see implementation file
+---------------------------------------------------------------------------*/
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+MotorDriver *CreateASIM(SConnection *pCon, int argc, char *argv[]);
+#ifdef __cplusplus
+}
+#endif

site_ansto/motor_dmc2280.c

@@ -0,0 +1,802 @@
+/*------------------------------------------------------------------------
+  Implements a SICS motor object with a MotorDriver interface.
+  The control and communications functions are implemented in a separate layer
+  in instrument/dmc2280.tcl
+
+Copyright: see file Copyright.txt
+
+Ferdi Franceschini November 2005
+-----------------------------------------------------------------------*/
+#include <stdlib.h>
+#include <math.h>
+#include <float.h>
+#include <assert.h>
+#include <string.h>
+#include <stdarg.h>
+#include <fortify.h>
+#include <sics.h>
+#include <rs232controller.h>
+#include <modriv.h>
+#include <dynstring.h>
+/*
+#include "splint/splint_fortify.h"
+#include "splint/splint_tclDecls.h"
+#include "splint/splint_dynstring.h"
+#include "splint/splint_SCinter.h"
+*/
+
+/*-----------------------------------------------------------------------
+  The motor driver structure. Please note that the first set of fields has 
+  be identical with the fields of AbstractModriv in  ../modriv.h 
+  ------------------------------------------------------------------------*/
+typedef struct __MoDriv {
+  /* general motor driver interface 
+     fields. _REQUIRED!
+     */
+  float fUpper; /* upper limit */
+  float fLower; /* lower limit */
+  char *name;
+  int   (*GetPosition)(void *self,float *fPos);
+  int   (*RunTo)(void *self, float fNewVal);
+  int   (*GetStatus)(void *self);
+  void  (*GetError)(void *self, int *iCode, char *buffer, int iBufLen);
+  int   (*TryAndFixIt)(void *self,int iError, float fNew);
+  int   (*Halt)(void *self);
+  int   (*GetDriverPar)(void *self, char *name, 
+      float *value);
+  int    (*SetDriverPar)(void *self,SConnection *pCon,
+      char *name, float newValue);
+  void   (*ListDriverPar)(void *self, char *motorName,
+      SConnection *pCon);
+  void   (*KillPrivate)(void *self);
+
+
+  /* DMC-2280 specific fields */
+  SConnection *pCon;
+  prs232 controller;
+  int iMotor;
+  int errorCode;
+  int oredMsr;
+  int lastValue;
+  int iConfig;
+  char units[256]; /* physical units for axis */
+  float speed; /* physical units per second */
+  float maxSpeed; /* physical units per second */
+  float accel; /* physical units per second^2 */
+  float maxAccel; /* physical units per second^2 */
+  float decel; /* physical units per second^2 */
+  float maxDecel; /* physical units per second^2 */
+  char axisLabel; 
+  char lastCmd[1024];
+  float home; /* home position for axis, default=0 */
+  int motorHome; /* motor home position in steps */
+  int stepsPerX; /* steps per physical unit */
+  int abs_endcoder; /* Flag = 1 if there is an abs enc */
+  int absEncHome; /* Home position in counts for abs enc */
+  int cntsPerX; /* absolute encoder counts per physical unit */
+} DMC2280Driv, *pDMC2280Driv;
+/*------------------- error codes ----------------------------------*/
+#define BADADR     -1 // Unknown host/port?
+#define BADBSY     -2
+#define BADCMD     -3
+#define BADPAR     -4 // Does SICS already check parameter types?
+#define BADUNKNOWN -5
+#define BADSTP     -6
+#define BADEMERG   -7
+#define RVRSLIM    -8
+#define FWDLIM     -9 
+#define RUNFAULT   -10
+#define POSFAULT   -11
+#define BADCUSHION -12
+#define ERRORLIM   -13
+#define IMPOSSIBLE_LIM_SW -14
+#define BGFAIL     -15
+/*--------------------------------------------------------------------*/
+#define STATUSMOVING 128 /* Motor is moving */
+#define STATUSERRORLIMIT 64 /* Number of errorss exceed limit */
+#define STATUSOFF 32 /* Motor off */
+#define STATUSFWDLIMIT 8 /* Forward limit switch active */
+#define STATUSRVRSLIMIT 4 /* Reverse limit switch active */
+
+#define INIT_STR_SIZE 256
+#define STR_RESIZE_LENGTH   256
+#define CMDLEN 1024
+#define ERRLEN 256
+#define BUFFLEN 512
+#define FAILURE 0
+#define SUCCESS 1
+#define _REQUIRED 1
+#define _OPTIONAL 0
+
+#define HOME "home"
+#define HARDLOWERLIM "hardlowerlim"
+#define HARDUPPERLIM "hardupperlim"
+#define UNITS "units"
+#define SPEED "speed"
+#define MAXSPEED "maxSpeed"
+#define ACCEL "accel"
+#define MAXACCEL "maxAccel"
+#define DECEL "decel"
+#define MAXDECEL "maxDecel"
+
+static int DMC2280Receive(pDMC2280Driv self, /*@out@*/ char *reply);
+
+/* Return motor speed in steps/sec */
+static int motSpeed(pDMC2280Driv self, float speed) {
+  int motSpeed; 
+    motSpeed = abs((int)(speed * self->stepsPerX + 0.5));
+    return motSpeed;
+}
+
+/* Return motor acceleration in steps/sec^2 */
+static int motAccel(pDMC2280Driv self, float accel) {
+  int motAccel;
+  motAccel = abs((int)(accel * self->stepsPerX + 0.5));
+  return motAccel;
+}
+
+/* Return motor deceleration in steps/sec^2 */
+static int motDecel(pDMC2280Driv self, float decel) {
+  int motDecel;
+  motDecel = abs((int)(decel * self->stepsPerX + 0.5));
+  return motDecel;
+}
+
+static int DMC2280ReadChar(pDMC2280Driv self, char *reply) {
+  int i, status, retries=20, dataLen=1;
+  for (i=0; i<retries; i++) {
+    status=readRS232(self->controller, reply, &dataLen);
+    switch (status) {
+      case 1:
+        return SUCCESS;
+      case TIMEOUT:
+        self->errorCode = status;
+        continue;
+      default:
+        self->errorCode = status;
+        return FAILURE;
+    }
+  }
+  return FAILURE;
+}
+/*---------------------------------------------------------------------*/
+/* First character returned by controller is
+   '?' for an invalid command or
+   ':' or space for a valid command */
+static int DMC2280Send(pDMC2280Driv self, char *command) {
+  char cmdValid, pError[ERRLEN], reply[256];
+  char *GetEMsg = "TC 1";
+  int status;
+
+  strncpy(self->lastCmd, command, CMDLEN);
+  status = writeRS232(self->controller, command, strlen(command));
+  if (status != 1) {
+    self->errorCode = status;
+    return FAILURE;
+  }
+
+  if (FAILURE == (status = DMC2280ReadChar(self, &cmdValid))) {
+    self->errorCode = status;
+    return FAILURE;
+  } else {
+    switch (cmdValid) {
+      case ':':
+      case ' ':
+        return SUCCESS;
+      case '?':
+        status = writeRS232(self->controller, GetEMsg, strlen(GetEMsg));
+        if (status != 1) {
+          self->errorCode = status;
+          return FAILURE;
+        }
+        if (FAILURE == DMC2280Receive(self, reply))
+          return HWFault;
+        snprintf(pError, ERRLEN, "DMC2280ERROR: Bad command '%s'", command);
+        SCWrite(self->pCon, reply, eError);
+        self->errorCode = BADCMD;
+        return FAILURE;
+      default:
+        self->errorCode = BADUNKNOWN;
+        return FAILURE;
+    }
+  }
+}
+
+static int DMC2280Receive(pDMC2280Driv self, char *reply) {
+  int i, status, retries=20, dataLen=255;
+  for (i=0; i<retries; i++) {
+    status=readRS232TillTerm(self->controller, reply, &dataLen);
+    switch (status) {
+      case 1:
+        return dataLen;
+      case TIMEOUT:
+        self->errorCode = status;
+        continue;
+      /* TODO case INCOMPLETE: */
+      default:
+        self->errorCode = status;
+        return FAILURE;
+    }
+  }
+  return FAILURE;
+}
+/*---------------------------------------------------------------------*/
+static int DMC2280GetPos(void *pData, float *fPos){
+  pDMC2280Driv self = NULL;
+  char reply[1024];
+  char cmd[CMDLEN];
+  float absEncPos, motorPos;
+
+  reply[0]='\0';
+  self = (pDMC2280Driv)pData;
+  assert(self != NULL);
+  if (1 == self->abs_endcoder) {
+    snprintf(cmd, CMDLEN, "TP%c", self->axisLabel);
+    if (FAILURE == DMC2280Send(self, cmd))
+      return HWFault;
+    if (FAILURE == DMC2280Receive(self, reply))
+      return HWFault;
+    absEncPos =(float)atof(reply);
+    *fPos = (absEncPos - self->absEncHome)/self->cntsPerX + self->home;
+  } else {
+    snprintf(cmd, ERRLEN, "TD%c", self->axisLabel);
+    if (FAILURE == DMC2280Send(self, cmd))
+      return HWFault;
+    if (FAILURE == DMC2280Receive(self, reply))
+      return HWFault;
+    motorPos =(float)atof(reply);
+    *fPos = (motorPos - self->motorHome)/self->stepsPerX + self->home;
+  }
+  return OKOK;
+}
+/*----------------------------------------------------------------------*/
+static int DMC2280Run(void *pData,float fValue){
+  pDMC2280Driv self = NULL;
+  char axis;
+  char cmd[CMDLEN], SH[CMDLEN], BG[CMDLEN], absPosCmd[CMDLEN];
+  int absEncHome, stepsPerX, motorHome, cntsPerX, newAbsPosn;
+  float target;
+
+  self = (pDMC2280Driv)pData;
+  assert(self != NULL);
+  axis=self->axisLabel;
+  motorHome = self->motorHome;
+  stepsPerX=self->stepsPerX;
+  snprintf(SH, CMDLEN, "SH%c", axis);
+  snprintf(BG, CMDLEN, "BG%c", axis);
+  target = fValue - self->home;
+  newAbsPosn = (int)(target * stepsPerX + motorHome + 0.5);
+  snprintf(absPosCmd, CMDLEN, "PA%c=%d",axis, newAbsPosn);
+
+  if (1 == self->abs_endcoder) {
+    /* Ensure that the defined motor position matches actual position */
+    absEncHome = self->absEncHome;
+    cntsPerX = self->cntsPerX;
+    snprintf(cmd, CMDLEN, "DP%c=(_TP%c - %d)*(%d/%d) + %d",axis,axis,absEncHome,stepsPerX,cntsPerX,motorHome);
+    if (FAILURE == DMC2280Send(self, cmd)) 
+      return HWFault;
+    snprintf(cmd, CMDLEN, "%cQTARGET=%d", axis, (int) (target * cntsPerX + absEncHome + 0.5));
+    if (FAILURE == DMC2280Send(self, cmd))
+      return HWFault;
+  }
+
+  if (FAILURE == DMC2280Send(self, absPosCmd))
+      return HWFault;
+  if (FAILURE == DMC2280Send(self, SH))
+    return HWFault;
+  if (FAILURE == DMC2280Send(self, BG))
+    return HWFault;
+  return OKOK;
+}
+
+
+/*------------------------------------------------------------------------*/
+static int DMC2280Status(void *pData){
+  pDMC2280Driv self = NULL;
+  char cmd[CMDLEN];
+  int switches;
+  char switchesAscii[10], reply[256];
+  int moving, fwd_limit_active, rvrs_limit_active, errorlimit;
+  int SERVO_LOOP_NOT_RUNNING = -1, servoLoopStatus;
+  int SHOULD_FIXPOS=1, should_fixpos;
+
+  self = (pDMC2280Driv)pData;
+  assert(self != NULL);
+  /* Get status of switches
+   * see TS (Tell Switches) in Galil manc2xx */
+  snprintf(cmd, CMDLEN, "TS%c", self->axisLabel);
+  if (FAILURE == DMC2280Send(self, cmd))
+    return HWFault;
+  if (FAILURE == DMC2280Receive(self, switchesAscii))
+    return HWFault;
+  sscanf(switchesAscii, "%d", &switches);
+  moving = (switches & STATUSMOVING)>0;
+  fwd_limit_active = !(switches & STATUSFWDLIMIT)>0;
+  rvrs_limit_active = !(switches & STATUSRVRSLIMIT)>0;
+  errorlimit = (switches & STATUSERRORLIMIT)>0;
+
+  if (fwd_limit_active && rvrs_limit_active) {
+    self->errorCode = IMPOSSIBLE_LIM_SW;
+    return HWFault;
+  }
+  if (moving) {
+    self->errorCode = BADBSY;
+    return HWBusy;
+  } else {
+    /* If motor stopped check limits and error status */
+    if (fwd_limit_active) {
+      self->errorCode = FWDLIM;
+      return HWFault;
+    } else if (rvrs_limit_active) {
+      self->errorCode = RVRSLIM;
+      return HWFault;
+    } else if (errorlimit) {
+      self->errorCode = ERRORLIM;
+      return HWFault;
+    }
+    if (self->abs_endcoder == 1) {
+      /* Make sure that the servo loop is closed by checking if
+       * the CLSLOOP thread is running on the controller.*/
+      if (FAILURE == DMC2280Send(self, "MG _XQ1"))
+        return HWFault;
+      if (FAILURE == DMC2280Receive(self, reply))
+        return HWFault;
+      sscanf(reply, "%d", &servoLoopStatus);
+      if (servoLoopStatus == SERVO_LOOP_NOT_RUNNING) {
+        /* Start subroutine on controller to close the servo loop */
+        if (FAILURE == DMC2280Send(self, "XQ#CLSLOOP"))
+          return HWFault;
+      }
+      snprintf(cmd, CMDLEN, "MG %cSHLDFIX", self->axisLabel);
+      if (FAILURE == DMC2280Send(self, cmd))
+        return HWFault;
+      if (FAILURE == DMC2280Receive(self, reply))
+        return HWFault;
+      sscanf(reply, "%d", &should_fixpos);
+      if (should_fixpos == SHOULD_FIXPOS) {
+        snprintf(cmd, CMDLEN, "%cFIXPOS=1", self->axisLabel);
+        if (FAILURE == DMC2280Send(self, cmd))
+          return HWFault;
+        self->errorCode=BADBSY;
+        return HWBusy;
+      }
+    }
+    return HWIdle;
+  }
+}
+/*----------------------------------------------------------------------*/
+static void DMC2280Error(void *pData, int *iCode, char *error, int errLen){
+  pDMC2280Driv self = NULL;
+  self = (pDMC2280Driv)pData;
+  assert(self != NULL);
+
+  *iCode = self->errorCode;
+  switch(*iCode){
+    case BADADR:
+      strncpy(error,"Bad address",(size_t)errLen);
+      break;
+    case BADBSY:
+      strncpy(error,"Motor still busy",(size_t)errLen);
+      break;
+    case BADCMD:
+      snprintf(error, (size_t)errLen, "Bad command: '%s'", self->lastCmd);
+      break;
+    case BADPAR:
+      strncpy(error,"Bad parameter",(size_t)errLen);
+      break;
+    case BADUNKNOWN:
+      strncpy(error,"Unknown error condition",(size_t)errLen);
+      break;
+    case BADSTP:
+      strncpy(error,"Motor is stopped",(size_t)errLen);
+      break;
+    case BADEMERG:
+      strncpy(error,"Emergency stop is engaged",(size_t)errLen);
+      break;
+    case BGFAIL:
+      strncpy(error,"Begin not possible due to limit switch",(size_t)errLen);
+      break;
+    case RVRSLIM:
+      strncpy(error,"Crashed into reverse limit switch",(size_t)errLen);
+      break;
+    case FWDLIM:
+      strncpy(error,"Crashed into forward limit switch",(size_t)errLen);
+      break;
+    case RUNFAULT:
+      strncpy(error,"Run fault detected",(size_t)errLen);
+      break;
+    case POSFAULT:
+      strncpy(error,"Positioning fault detected",(size_t)errLen);
+      break;
+    case BADCUSHION:
+      strncpy(error,"Air cushion problem",(size_t)errLen);
+      break;
+    case ERRORLIM:
+      strncpy(error,"Axis error exceeds error limit",(size_t)errLen);
+      break;
+    case IMPOSSIBLE_LIM_SW:
+      strncpy(error,"Both limit switches seem active, maybe the polarity is set 'active low'. You should controller the controller with CN 1,-1,-1,0", (size_t)errLen);
+      break;
+    default:
+      /* FIXME What's the default */
+      break;
+  }
+}
+/*----------------------------------------------------------------------*/
+static int DMC2280Fix(void *pData, int iCode,/*@unused@*/ float fValue){
+  pDMC2280Driv self = NULL;
+
+  self = (pDMC2280Driv)pData;
+  assert(self != NULL);
+
+  switch(iCode){
+    case BADADR:
+    case BADCMD:
+      //case TIMEOUT:
+    case BADPAR:
+    case BADBSY:
+      return MOTREDO;
+    case RUNFAULT:
+    case POSFAULT:
+      return MOTREDO;
+    case NOTCONNECTED:
+      initRS232(self->controller);
+      return MOTREDO;
+  }
+  return MOTFAIL;
+}
+/*----------------------------------------------------------------------*/
+/* Emergency Halt
+ * Uses maximum deceleration */
+static int DMC2280Halt(void *pData){
+  pDMC2280Driv self = NULL;
+  char cmd[CMDLEN];
+
+  self = (pDMC2280Driv)pData;
+  assert(self != NULL);
+  /* Set maximum deceleration to stop motor */
+  snprintf(cmd, CMDLEN, "DC%c", motDecel(self, self->maxDecel));
+  if (FAILURE == DMC2280Send(self, cmd))
+    return HWFault;
+  /* Stop motor */
+  snprintf(cmd, CMDLEN, "ST%c", self->axisLabel);
+  if (FAILURE == DMC2280Send(self, cmd))
+    return HWFault;
+  /* Restore deceleration */
+  snprintf(cmd, CMDLEN, "DC%c", motDecel(self, self->decel));
+  if (FAILURE == DMC2280Send(self, cmd))
+    return HWFault;
+
+  return 1;
+}
+/*--------------------------------------------------------------------*/
+static int DMC2280GetPar(void *pData, char *name,
+    float *fValue){
+  pDMC2280Driv self = NULL;
+
+  self = (pDMC2280Driv)pData;
+
+  if(strcmp(name,HOME) == 0) {
+    *fValue = self->home;
+    return 1;
+  } 
+  if(strcmp(name,HARDLOWERLIM) == 0) {
+    *fValue = self->fLower;
+    return 1;
+  }
+  if(strcmp(name,HARDUPPERLIM) == 0) {
+    *fValue = self->fUpper;
+    return 1;
+  }
+  if(strcmp(name,SPEED) == 0) {
+    *fValue = self->speed;
+    return 1;
+  }
+  if(strcmp(name,MAXSPEED) == 0) {
+    *fValue = self->maxSpeed;
+    return 1;
+  }
+  if(strcmp(name,ACCEL) == 0) {
+    *fValue = self->accel;
+    return 1;
+  }
+  if(strcmp(name,MAXACCEL) == 0) {
+    *fValue = self->maxAccel;
+    return 1;
+  }
+  if(strcmp(name,DECEL) == 0) {
+    *fValue = self->decel;
+    return 1;
+  }
+  if(strcmp(name,MAXDECEL) == 0) {
+    *fValue = self->maxDecel;
+    return 1;
+  }
+  return 0;
+}
+/*--------------------------------------------------------------------*/
+static int DMC2280SetPar(void *pData, SConnection *pCon,
+    char *name, float newValue){
+  pDMC2280Driv self = NULL;
+  char pError[ERRLEN];
+  char cmd[CMDLEN];
+
+  self = (pDMC2280Driv)pData;
+
+  /* Set home */
+  if(strcmp(name,HOME) == 0) {
+    if ( (self->fLower - newValue) > FLT_EPSILON) {
+      snprintf(pError, ERRLEN,"ERROR: %s must be greater than or equal to %f", HOME, self->fLower);
+      SCWrite(pCon, pError, eError);
+      return 1;
+    }
+    if ( (newValue - self->fUpper) > FLT_EPSILON) {
+      snprintf(pError, ERRLEN,"ERROR: %s must be less than or equal to %f", HOME, self->fUpper);
+      SCWrite(pCon, pError, eError);
+      return 1;
+    }
+    self->home = newValue;
+    return 1;
+  }
+
+  /* Set upper limit, lower limit */
+  if(strcmp(name,HARDLOWERLIM) == 0) {
+    self->fLower = newValue;
+    return 1;
+  }
+  if(strcmp(name,HARDUPPERLIM) == 0) {
+    self->fUpper = newValue;
+    return 1;
+  }
+
+  /* Set speed */
+  if(strcmp(name,SPEED) == 0) {
+    if ((0.0 - newValue) > FLT_EPSILON) {
+      snprintf(pError, ERRLEN,"ERROR: %s must be greater than or equal to %f", SPEED, 0.0);
+      SCWrite(pCon, pError, eError);
+      return 1;
+    }
+    if ((newValue - self->maxSpeed ) > FLT_EPSILON) {
+      snprintf(pError, ERRLEN,"ERROR: %s must be less than or equal to %f", SPEED, self->maxSpeed);
+      SCWrite(pCon, pError, eError);
+      return 1;
+    }
+    self->speed = newValue;
+    snprintf(cmd,CMDLEN,"SP%c=%d", self->axisLabel, motSpeed(self, self->speed));
+    if (FAILURE == DMC2280Send(self, cmd))
+      return 0; /* FIXME should signal a HWFault */
+    return 1;
+  }
+
+  /* Set Acceleration */
+  if(strcmp(name,ACCEL) == 0) {
+    if ((0.0 - newValue) > FLT_EPSILON) {
+      snprintf(pError, ERRLEN,"ERROR: %s must be greater than or equal to %f", ACCEL, 0.0);
+      SCWrite(pCon, pError, eError);
+      return 1;
+    }
+    if ((newValue - self->maxAccel ) > FLT_EPSILON) {
+      snprintf(pError, ERRLEN,"ERROR: %s must be less than or equal to %f", ACCEL, self->maxAccel);
+      SCWrite(pCon, pError, eError);
+      return 1;
+    }
+    self->accel = newValue;
+    snprintf(cmd,CMDLEN,"AC%c=%d", self->axisLabel, motAccel(self, self->accel));
+    if (FAILURE == DMC2280Send(self, cmd))
+      return 0; /* FIXME should signal a HWFault */
+    return 1;
+  }
+
+  /* Set Deceleration */
+  if(strcmp(name,DECEL) == 0) {
+    if ((0.0 - newValue) > FLT_EPSILON) {
+      snprintf(pError, ERRLEN,"ERROR: %s must be greater than or equal to %f", DECEL, 0.0);
+      SCWrite(pCon, pError, eError);
+      return 1;
+    }
+    if ((newValue - self->maxDecel ) > FLT_EPSILON) {
+      snprintf(pError, ERRLEN,"ERROR: %s must be less than or equal to %f", DECEL, self->maxDecel);
+      SCWrite(pCon, pError, eError);
+      return 1;
+    }
+    self->decel = newValue;
+    snprintf(cmd,CMDLEN,"DC%c=%d", self->axisLabel, motDecel(self, self->decel));
+    if (FAILURE == DMC2280Send(self, cmd))
+      return 0; /* FIXME should signal a HWFault */
+    return 1;
+  }
+
+  return 0;
+}
+/*--------------------------------------------------------------------*/
+static void DMC2280List(void *self, char *name, SConnection *pCon){
+  char buffer[BUFFLEN];
+
+  snprintf(buffer, BUFFLEN, "%s.axis = %c\n", name, ((pDMC2280Driv)self)->axisLabel);
+  SCWrite(pCon, buffer, eStatus);
+  snprintf(buffer, BUFFLEN, "%s.home = %f\n", name, ((pDMC2280Driv)self)->home);
+  SCWrite(pCon, buffer, eStatus);
+  snprintf(buffer, BUFFLEN, "%s.units = %s\n", name, ((pDMC2280Driv)self)->units);
+  SCWrite(pCon, buffer, eStatus);
+  snprintf(buffer, BUFFLEN, "%s.speed = %f\n", name, ((pDMC2280Driv)self)->speed);
+  SCWrite(pCon, buffer, eStatus);
+  snprintf(buffer, BUFFLEN, "%s.maxSpeed = %f\n", name, ((pDMC2280Driv)self)->maxSpeed);
+  SCWrite(pCon, buffer, eStatus);
+  snprintf(buffer, BUFFLEN, "%s.accel = %f\n", name, ((pDMC2280Driv)self)->accel);
+  SCWrite(pCon, buffer, eStatus);
+  snprintf(buffer, BUFFLEN, "%s.maxAccel = %f\n", name, ((pDMC2280Driv)self)->maxAccel);
+  SCWrite(pCon, buffer, eStatus);
+  snprintf(buffer, BUFFLEN, "%s.decel = %f\n", name, ((pDMC2280Driv)self)->decel);
+  SCWrite(pCon, buffer, eStatus);
+  snprintf(buffer, BUFFLEN, "%s.maxDecel = %f\n", name, ((pDMC2280Driv)self)->maxDecel);
+  SCWrite(pCon, buffer, eStatus);
+  return;
+}
+/*---------------------------------------------------------------------*/
+static void KillDMC2280(void *pData){
+  pDMC2280Driv self = NULL;
+  self = (pDMC2280Driv)pData;
+  assert(self != NULL);
+  free(self->name);
+  /*@-temptrans@*/ free(self); /*@+temptrans@*/
+  return;
+}
+static prs232 DMC2280Connect(SConnection *pCon, char *buffer, int port) {
+  prs232 controller=NULL;
+  char pError[ERRLEN];
+  int usecTimeout = 50000; /* 50msec timeout */
+
+  controller=createRS232(buffer,port);
+  if (controller==NULL)  {
+    snprintf(pError, ERRLEN,
+        "ERROR: failed to create controller for %s at port %d",
+        controller->pHost, controller->iPort);
+    SCWrite(pCon,pError,eError);
+    return NULL;
+  }
+  if ( initRS232(controller) != 1) {
+    snprintf(pError, ERRLEN,
+        "ERROR: failed to connect to %s at port %d",
+        controller->pHost, controller->iPort);
+    SCWrite(pCon,pError,eError);
+    return NULL;
+  }
+  setRS232ReplyTerminator(controller,"&\r\n:");
+  setRS232SendTerminator(controller,"\r\n");
+  setRS232Timeout(controller, usecTimeout);
+  return controller;
+}
+
+/* Get configuration parameter */
+static char *getParam(SConnection *pCon, Tcl_Interp *pTcl, char *params, char *parName, int mustHave ) {
+  char *pPtr=NULL, pError[ERRLEN];
+  pPtr = Tcl_GetVar2(pTcl,params,parName,TCL_GLOBAL_ONLY);
+  if((mustHave == _REQUIRED) && !pPtr){
+    snprintf(pError, ERRLEN,"ERROR: No '%s' parameter given for dmc2280 motor", parName);
+    SCWrite(pCon,pError, eError);
+  }
+  return pPtr;
+}
+
+/*------------------------------------------------------------------*/
+/*@null@*/ MotorDriver *CreateDMC2280(SConnection *pCon, char *motor, char *params){
+  /*@keep@*/ pDMC2280Driv pNew = NULL;
+  char *pPtr = NULL;
+  char buffer[132];
+  char pError[ERRLEN];
+  char cmd[CMDLEN];
+  int port;
+  Tcl_Interp *interp;
+
+  buffer[0]='\0';
+
+  interp = InterpGetTcl(pServ->pSics);
+
+  /*
+     allocate and initialize data structure
+     */
+  pNew = (pDMC2280Driv)malloc(sizeof(DMC2280Driv));
+  if(!pNew){
+    (void) SCWrite(pCon,"ERROR: no memory to allocate motor driver",
+                   eError);
+    return NULL;
+  }
+  /* Get hostname and port from the list of named parameters */
+  if ((pPtr=getParam(pCon, interp, params,"port",1)) == NULL) return NULL;
+  sscanf(pPtr,"%d",&port);
+  if ((pPtr=getParam(pCon, interp, params,"host",1)) == NULL) return NULL;
+  strncpy(buffer,pPtr, 131);
+
+  /* Connect to the controller */
+  memset(pNew,0,sizeof(DMC2280Driv));
+  pNew->controller = DMC2280Connect(pCon, buffer,port);
+  if( pNew->controller == NULL ) {
+    snprintf(pError, ERRLEN, "\tError occurred when creating DMC2280 motor '%s'", motor);
+    SCWrite(pCon,pError,eError);
+    return NULL;
+  }
+
+  /*FIXME Tell splint that there's no memory leak because pointers are being initialised here */
+  /*@-mustfreeonly@*/
+  pNew->name = (char *)malloc(sizeof(char)*(strlen(motor)+1));
+  if (pNew->name == NULL) {
+    (void) SCWrite(pCon,"ERROR: no memory to allocate motor driver",
+                   eError);
+    free(pNew);
+    return NULL;
+  }
+  strcpy(pNew->name, motor);
+  pNew->pCon = pCon;
+  pNew->home = 0.0;
+  pNew->fLower = 0.0;//(float)atof(argv[2]);
+  pNew->fUpper = 100.0;//(float)atof(argv[3]);
+  pNew->GetPosition = DMC2280GetPos;
+  pNew->RunTo = DMC2280Run;
+  pNew->GetStatus = DMC2280Status;
+  pNew->GetError = DMC2280Error;
+  pNew->TryAndFixIt = DMC2280Fix;
+  pNew->Halt = DMC2280Halt;
+  pNew->GetDriverPar = DMC2280GetPar;
+  pNew->SetDriverPar = DMC2280SetPar;
+  pNew->ListDriverPar = DMC2280List;
+  pNew->KillPrivate = KillDMC2280;
+  if ((pPtr=getParam(pCon, interp, params,UNITS,_REQUIRED)) == NULL)
+    return NULL;
+  sscanf(pPtr,"%s",pNew->units);
+  if ((pPtr=getParam(pCon, interp, params,MAXSPEED,_REQUIRED)) == NULL)
+    return NULL;
+  sscanf(pPtr,"%f",&(pNew->speed));
+  pNew->maxSpeed = pNew->speed;
+  if ((pPtr=getParam(pCon, interp, params,MAXACCEL,_REQUIRED)) == NULL)
+    return NULL;
+  sscanf(pPtr,"%f",&(pNew->accel));
+  pNew->maxAccel = pNew->accel;
+  if ((pPtr=getParam(pCon, interp, params,MAXDECEL,_REQUIRED)) == NULL)
+    return NULL;
+  sscanf(pPtr,"%f",&(pNew->decel));
+  pNew->maxDecel = pNew->decel;
+  if ((pPtr=getParam(pCon, interp, params,"axis",_REQUIRED)) == NULL)
+    return NULL;
+  sscanf(pPtr,"%c",&(pNew->axisLabel));
+  if ((pPtr=getParam(pCon, interp, params,"stepsPerX",_REQUIRED)) == NULL)
+    return NULL;
+  sscanf(pPtr,"%d",&(pNew->stepsPerX));
+  if ((pPtr=getParam(pCon, interp, params,"motorHome",_OPTIONAL)) == NULL)
+    pNew->motorHome=0;
+  else
+    sscanf(pPtr,"%d",&(pNew->motorHome));
+  if ((pPtr=getParam(pCon, interp, params,"absEnc",_OPTIONAL)) == NULL)
+    pNew->abs_endcoder=0;
+  else {
+    sscanf(pPtr,"%d",&(pNew->abs_endcoder));
+    if ((pPtr=getParam(pCon, interp, params,"absEncHome",_REQUIRED)) == NULL)
+      pNew->absEncHome=0;
+    else
+      sscanf(pPtr,"%d",&(pNew->absEncHome));
+    if ((pPtr=getParam(pCon, interp, params,"cntsPerX",_REQUIRED)) == NULL)
+      pNew->cntsPerX=1;
+    else
+      sscanf(pPtr,"%d",&(pNew->cntsPerX));
+  }
+  /*@+mustfreeonly@*/
+
+    /* Set speed */
+    snprintf(cmd,CMDLEN,"SP%c=%d", pNew->axisLabel, motSpeed(pNew, pNew->speed));
+    if (FAILURE == DMC2280Send(pNew, cmd))
+      exit(EXIT_FAILURE);
+    /* Set acceleration */
+    snprintf(cmd,CMDLEN,"AC%c=%d", pNew->axisLabel, motAccel(pNew, pNew->accel));
+    if (FAILURE == DMC2280Send(pNew, cmd))
+      exit(EXIT_FAILURE);
+    /* Set deceleration */
+    snprintf(cmd,CMDLEN,"DC%c=%d", pNew->axisLabel, motDecel(pNew, pNew->decel));
+    if (FAILURE == DMC2280Send(pNew, cmd))
+      exit(EXIT_FAILURE);
+    /* TODO Initialise current position and target to get a sensible initial list output */
+  return (MotorDriver *)pNew;
+}
+
+
+
+
+

site_ansto/motor_dmc2280.h

@@ -0,0 +1,17 @@
+/*--------------------------------------------------------------------------
+ *      dmc2280.h
+
+  The Galil motion controller driver include file
+
+  Nick Hauser, March 2004
+
+  copyright: see implementation file.
+---------------------------------------------------------------------------*/
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+MotorDriver *CreateDMC2280(SConnection *pCon, int argc, char *argv[]);
+#ifdef __cplusplus
+}
+#endif

site_ansto/motor_driver.h

@@ -0,0 +1,24 @@
+/*--------------------------------------------------------------------------
+----------------------------------------------------------------------------*/
+
+#define MOTREDO -1
+#define MOTFAIL  0
+#define MOTOK    1
+
+  typedef struct __AbstractMoDriv {
+    /* general motor driver interface fields. REQUIRED! */
+        float fUpper; /* upper limit */
+        float fLower; /* lower limit */
+        char *name;
+        int   (*GetPosition)(void *self, float *fPos);
+        int   (*RunTo)(void *self,float fNewVal);
+        int   (*GetStatus)(void *self);
+        void  (*GetError)(void *self, int *iCode, char *buffer, int iBufLen);
+        int   (*TryAndFixIt)(void *self, int iError,float fNew);
+        int   (*Halt)(void *self);
+        int   (*GetDriverPar)(void *self, char *name, float *value);
+        int   (*SetDriverPar)(void *self,SConnection *pCon, char *name, 
+                float newValue);
+        void   (*ListDriverPar)(void *self, char *motorName, SConnection *pCon);
+        void   (*KillPrivate)(void *self);
+  } MotorDriver;

site_ansto/refl2t.c

@@ -0,0 +1,403 @@
+/*---------------------------------------------------------------------------
+  REFL2T.c
+
+Paul Hathaway, Nick Hauser, Mark Koennecke, February 2004 
+---------------------------------------------------------------------------*/
+#include <stdlib.h>
+#include <assert.h>
+#include <math.h>
+#include "fortify.h"
+#include <tcl.h>
+#include "sics.h"
+#include "motor.h"
+#include "obpar.h"
+
+#define DEBUG 1
+
+#define MAXMOT 3
+#define MAXPAR 13
+
+#define PI 3.14157
+
+#include "refl2t.h"
+
+
+/* detector height movement */
+#define MOTCOZ 0
+/* detector movement along main axis */
+#define MOTCOY 1
+/* whole sample table height movement */
+#define MOTSOZ 2
+
+
+/*======================================================================
+   The core of it all: The calculation of the settings for the various 
+   motors.
+========================================================================*/
+   static int CalculateREFL(pRefl2T self, SConnection *pCon, float fNew)
+   {
+      float fDetPos, HeightOffset, DetLength;
+      int iRet;      
+
+/* assume: solid sample, horizontal beam, surface at height zero */
+/* read vals of motor coy */
+      iRet = MotorGetSoftPosition(self->aEngine[MOTCOY],pCon,&fDetPos);
+      if(iRet != 1)
+      {
+        return iRet;
+      }
+
+      HeightOffset = ObVal(self->aParameter,PARDHO);
+      DetLength = ObVal(self->aParameter,PARDDD) + fDetPos;
+
+/* calculate det height above beam axis */
+/* add detector offset height */
+ 
+      fNew = DetLength * tan((double)(fNew * PI / 180.0)) + HeightOffset ;
+      self->fTarget = fNew;
+      return 1;     
+
+/* Replacement code using MotEntry structure
+      self->toStart[MOTCOZ].pMot = self->aEngine[MOTCOZ];
+      strcpy(self->toStart[MOTCOZ].pName,self->aEngine[MOTCOZ]->name);
+      self->toStart[MOTCOZ].fTarget = DetLength * tan((double)(fNew * PI / 180.0)) + HeightOffset;
+ */
+   }
+
+/*========================================================================
+   Definition of interface functions.
+=========================================================================*/
+   static long R2TSetValue(void *pData, SConnection *pCon, float fNew)
+   {
+      int i, iRet;
+      pIDrivable pDriv = NULL;
+      pRefl2T self = (pRefl2T) pData;
+
+      assert(self);
+
+      /* calculation */
+      iRet = CalculateREFL(self,pCon,fNew);
+      if(iRet != 1)
+      {
+        return iRet;
+      }
+     
+      /* start them all */
+      /* for(i = 0; i < self->iStart; i++)
+      {*/
+        pDriv = self->aEngine[MOTCOZ].pMot->pDescriptor->GetInterface(
+                                            self->aEngine[MOTCOZ].pMot,DRIVEID); /* DRIVEID ??? */
+        if(pDriv != NULL)
+	{
+           iRet = pDriv->SetValue(self->tEngine[MOTCOZ].pMot,pCon,
+                                  self->fTarget); /* works for one motor MOTCOZ */
+           if(iRet != OKOK)
+	   {
+              return iRet;
+           }        
+        }        
+      /* } */
+      return OKOK;
+   } 
+
+    
+/*-------------------------------------------------------------------------*/
+   static int R2THalt(void *pData)
+   {
+      int i, iRet;
+      pIDrivable pDriv = NULL;
+      pRefl2T self = (pRefl2T) pData;
+
+      assert(self);
+
+      /* stop them all */
+      /*for(i = 0; i < self->iStart; i++)
+      {*/
+        pDriv = self->aEngine[MOTCOZ].pMot->pDescriptor->GetInterface(
+                                            self->aEngine[MOTCOZ].pMot,DRIVEID);
+        if(pDriv != NULL)
+	{
+           iRet = pDriv->Halt(self->aEngine[MOTCOZ].pMot);
+        }        
+      /* } */
+      return OKOK;
+   }
+/*-----------------------------------------------------------------------*/
+   static int R2TCheck(void *pData, float fNew, char *error, int iErrLen)
+   {
+      int i, iRet;
+      pIDrivable pDriv = NULL;
+      pRefl2T self = (pRefl2T) pData;
+      SConnection *pDumCon = NULL;
+
+/* Define code for this function */ 
+      assert(self);
+      pDumCon = SCCreateDummyConnection(pServ->pSics);
+      assert(pDumCon);
+
+      /* calculation */
+      iRet = CalculateREFL(self,pDumCon,fNew);
+      SCDeleteConnection(pDumCon);
+      if(iRet != 1)
+      {
+        return iRet;
+      }
+     
+      /* check them all */
+/*      for(i = 0; i < self->iStart; i++)
+      {*/
+        pDriv = self->aEngine[MOTCOZ].pMot->pDescriptor->GetInterface(
+                                            self->aEngine[MOTCOZ].pMot,DRIVEID);
+        if(pDriv != NULL)
+	{
+           iRet = pDriv->CheckLimits(self->aEngine[MOTCOZ].pMot,
+                                     self->aEngine[MOTCOZ].fTarget,
+                                     error,iErrLen);
+           if(iRet != 1)
+	   {
+              return iRet;
+           }        
+        }        
+      /* } */
+      return 1;
+   } 
+
+   static float R2TGetValue(void *pData, SConnection *pCon)
+   {
+     
+     pRefl2T self = (pRefl2T) pData;
+ 
+     assert(self);
+    
+     return fResult;
+   }
+   
+   static void *R2TGetInterface(void *pData, int iID)
+   {
+     pRefl2T self = (pRefl2T) pData;
+ 
+     assert(self);
+     if(iID == DRIVEID)
+     {
+       return self->pDriv;
+     }    
+     return NULL;
+   }
+   
+
+   static void Refl2TKill(void *pData)
+   {
+     pRefl2T self = (pRefl2T) pData;
+ 
+     if(self == NULL)
+        return;
+
+     if(self->pDes)
+        DeleteDescriptor(self->pDes);
+
+     if(self->pDriv)
+       free(self->pDriv);
+
+     if(self->aParameter)
+        ObParDelete(self->aParameter);
+
+     free(self);
+   }
+/*--------------------------------------------------------------------------
+  Initialization: All is done from the Factory function. This takes an Tcl
+  array as parameter which is supposed to hold the names of all motors.
+  This must fail if one of the motors cannot be accessed. 
+--------------------------------------------------------------------------*/
+   int Refl2TFactory(SConnection *pCon, SicsInterp *pSics, void *pData,
+                     int argc, char *argv[])
+   {
+       pRefl2T pNew;
+       int i, iRet;
+       char pBueffel[512];
+       char *pMot = NULL;
+
+       if(argc < 1)
+       {
+          SCWrite(pCon,
+            "ERROR: Insufficient number of arguments to Refl2tFactory",
+             eError);
+          return 0;
+       }
+
+       /* allocate space ..............*/
+       pNew = (pRefl2T)malloc(sizeof(Refl2T));
+       if(!pNew)
+       {
+          SCWrite(pCon,"ERROR: out of memory in Refl2TFactory",eError);
+          return 0;
+       }
+       memset(pNew,0,sizeof(Refl2T));
+       pNew->pDes = CreateDescriptor("Refl2T");
+       pNew->aParameter = ObParCreate(MAXPAR);
+       pNew->pDriv = CreateDrivableInterface();
+       if( (!pNew->pDes) || (!pNew->aParameter) || (!pNew->pDriv) )
+       {
+          SCWrite(pCon,"ERROR: out of memory in Refl2TFactory",eError);
+          Refl2TKill(pNew);
+          return 0;
+       }
+
+       /* find the motors*/
+       pMot = Tcl_GetVar2(pSics->pTcl,argv[2],"coz",TCL_GLOBAL_ONLY);
+       if(!pMot)
+       {
+          SCWrite(pCon,"ERROR: no value for coz motr found",eError);
+          Refl2TKill(pNew);
+          return 0;
+       }       
+       pNew->aMot[MOTCOZ] = FindMotor(pSics,pMot);
+       if(!pNew->aEngine[MOTCOZ])
+       {
+          sprintf(pBueffel,"ERROR: motor %s NOT found!", pMot);
+          SCWrite(pCon,pBueffel,eError);
+          Refl2TKill(pNew);
+          return 0;
+       }
+
+       pMot = Tcl_GetVar2(pSics->pTcl,argv[2],"coy",TCL_GLOBAL_ONLY);
+       if(!pMot)
+       {
+          SCWrite(pCon,"ERROR: no value for coy motor found",eError);
+          Refl2TKill(pNew);
+          return 0;
+       }       
+       pNew->aEngine[MOTCOY] = FindMotor(pSics,pMot);
+       if(!pNew->aEngine[MOTCOY])
+       {
+          sprintf(pBueffel,"ERROR: motor %s NOT found!", pMot);
+          SCWrite(pCon,pBueffel,eError);
+          Refl2TKill(pNew);
+          return 0;
+       }
+
+       pMot = Tcl_GetVar2(pSics->pTcl,argv[2],"soz",TCL_GLOBAL_ONLY);
+       if(!pMot)
+       {
+          SCWrite(pCon,"ERROR: no value for coz motor found",eError);
+          Refl2TKill(pNew);
+          return 0;
+       }       
+       pNew->aEngine[MOTSOZ] = FindMotor(pSics,pMot);
+       if(!pNew->aEngine[MOTSOZ])
+       {
+          sprintf(pBueffel,"ERROR: motor %s NOT found!", pMot);
+          SCWrite(pCon,pBueffel,eError);
+          Refl2TKill(pNew);
+          return 0;
+       }
+
+       /* initialize parameters */
+       ObParInit(pNew->aParameter,PARDDD,"detectord",1400.,usMugger);
+       ObParInit(pNew->aParameter,PARDHO,"heightoffset",50.,usMugger);
+       ObParInit(pNew->aParameter,PARDSO,"stageoffset",50.,usMugger);
+
+       /* initialize interfaces */
+       pNew->pDes->GetInterface = R2TGetInterface;
+       pNew->pDes->SaveStatus =   R2TSave;
+       pNew->pDriv->Halt = R2THalt;
+       pNew->pDriv->CheckLimits = R2TCheck;
+       pNew->pDriv->SetValue = R2TSetValue;
+       pNew->pDriv->CheckStatus = R2TStatus;
+       pNew->pDriv->GetValue = R2TGetValue;
+
+       /* install commands */
+       iRet = AddCommand(pSics,argv[1],
+                        Refl2TAction,Refl2TKill,pNew);
+       if(!iRet)
+       {
+         sprintf(pBueffel,"ERROR: duplicate command %s NOT created",
+                 argv[1]);
+         SCWrite(pCon,pBueffel,eError);
+         Refl2TKill(pNew);
+         return 0;
+       }
+       return 1;
+   }
+
+/*----------------------------------------------------------------------*/
+   int Refl2TAction(SConnection *pCon, SicsInterp *pSics, void *pData,
+                    int argc, char *argv[])
+   {
+      pRefl2T self = (pRefl2T)pData;
+      char pBueffel[256];
+      float fVal;
+      double dVal;
+      ObPar *pPar = NULL;
+      int iRet;
+
+      assert(self);
+
+      if(argc > 1)
+      {
+         strtolower(argv[1]);
+         /* deal with list */
+         if(strcmp(argv[1],"list") == 0)
+	 {
+            R2TList(self,pCon,argv[0]);
+            return 1;
+         }
+         /* otherwise it should be a parameter command */
+         if(argc >= 3)
+	 {
+           iRet = Tcl_GetDouble(pSics->pTcl,argv[2],&dVal);
+           if(iRet != TCL_OK)
+	   {
+             sprintf(pBueffel,"ERROR: failed to convert %s to number",
+             argv[2]);
+             SCWrite(pCon,pBueffel,eError);
+             return 0;
+           }
+           iRet = ObParSet(self->aParameter,argv[0],argv[1],(float)dVal,pCon);
+           if(iRet)
+	   {
+             SCSendOK(pCon);
+           }
+           return iRet;
+         }
+         else /* argc = 2 */
+	 {
+           pPar = ObParFind(self->aParameter,argv[1]);
+           if(!pPar)
+	   {
+             sprintf(pBueffel,"ERROR: parameter %s NOT found",argv[1]);
+             SCWrite(pCon,pBueffel,eError);
+             return 0;
+           }
+           sprintf(pBueffel,"%s.%s = %f",argv[0],pPar->name, pPar->fVal);
+           SCWrite(pCon,pBueffel,eValue);
+           return 1;
+         }
+      }
+      else
+      {
+        fVal = self->pDriv->GetValue(self,pCon);
+        sprintf(pBueffel," %s = %f", argv[0], fVal);
+        SCWrite(pCon,pBueffel,eValue);
+        return 1;
+      }
+   }
+
+   static void R2TList(pRefl2T self, SConnection *pCon, char *name)
+   {
+      char pBueffel[132];
+      Tcl_DString tString;
+
+      assert(pCon);
+      assert(self);
+ 
+      Tcl_DStringInit(&tString);
+      sprintf(pBueffel,
+            "%s.detectord %f \n", name, ObVal(self->aParameter,PARDDD));
+      Tcl_DStringInit(&tString);
+      sprintf(pBueffel,
+            "%s.heightoffset %f \n", name, ObVal(self->aParameter,PARDHO));
+      Tcl_DStringInit(&tString);
+      sprintf(pBueffel,
+            "%s.sampleoffset %f \n", name, ObVal(self->aParameter,PARDSO));
+   } 
+

site_ansto/refl2t.h

@@ -0,0 +1,49 @@
+/***********************************************************
+* Simple virtual 2 theta driver for the RRR Reflectometer  *
+*							   *
+* Paul Hathaway, Nick Hauser, Mark Koennecke. 4 Feb 2004.  *
+************************************************************/
+
+#define MAXMOT = 3;
+
+/*  aMot is the array of motors that includes the 
+    1. sample stage height motor
+    2. detector x motor
+    3. detector z motor
+*/
+
+   typedef struct __REFL2T {
+                           pObjectDescriptor   pDes;
+                           pIDrivable          pDriv;
+                           pMotor              aEngine[MAXMOT];
+                           /* MotEntry            toStart[]; */
+                           ObPar               *aParameter;
+                           float               fTarget;
+                           }Refl2T;
+
+#ifndef REFL2T
+#define REFL2T
+
+   typedef struct __REFL2T *pRefl2T;
+
+   int Refl2TFactory(SConnection *pCon, SicsInterp *pSics, void *pData,
+                     int argc, char *argv[]);
+   int Refl2TAction(SConnection *pCon, SicsInterp *pSics, void *pData,
+                     int argc, char *argv[]);
+
+#endif
+
+/* distance sample to detector */
+#define PARDDD = 0;
+/* distance offset for height of detector */
+#define PARDHO = 1;
+/* distance offset for sample height */
+#define PARDSO = 2;
+
+   typedef struct {
+		   pMotor pMot;
+		   char pName[80];
+		   float fTarget;
+                   int iLast;
+                  }MotEntry, *pMotEntry;
+ 

site_ansto/site_ansto.c

@@ -0,0 +1,238 @@
+/*------------------------------------------------------------------------
+ File: anstoSite.c
+
+ This is the site specific interface to SICS for ANSTO. This file implements
+ the interface defined in  ../site.h
+
+ Copyright: see file Copyright.txt
+
+ Template: Mark Koennecke, June 2003
+ Nick Hauser, Paul Hathaway, May 2004
+ -----------------------------------------------------------------------*/
+#include <stdlib.h>
+#include <assert.h>
+#include <fortify.h>
+#include <sics.h>
+#include <motor.h>
+#include <tcl.h>
+#include <site.h>
+#include <SCinter.h>
+
+/* site-specific driver header files */
+#include "motor_asim.h"
+#include "itc4.h"
+/* Added code for new LH45 and Lakeshore 340 drivers */
+#include "lh45.h"
+#include "lakeshore340.h"
+/* 
+  from tcpdornier.c
+*/
+extern int VelSelTcpFactory(SConnection *pCon, SicsInterp *pSics, void *pData, int argc, char *argv[]);
+extern pCodri MakeTcpDoChoDriver(char *tclArray, SConnection *pCon);
+
+
+void SiteInit(void) {
+
+#define INIT(F) { void F(void); F(); }
+/* insert here initialization routines ... */
+
+}
+
+static pSite /*@null@*/ siteANSTO = NULL;
+
+/*----------------------------------------------------------------------*/
+static void AddCommands(SicsInterp *pInter)
+{
+//    int iRet;
+//    SConnection *pDummyConn;
+    (void) AddCommand(pInter,"MakeTCPSelector",VelSelTcpFactory,NULL,NULL);
+    /*
+     * Initialisation: Force execution here or use config script
+    */
+//    pDummyConn = SCCreateDummyConnection(pInter);    
+//    iRet = InterpExecute(pInter,pDummyConn,"config outcode warning");
+//    iRet = InterpExecute(pInter,pDummyConn,"InstallSinfox");
+//    iRet = InterpExecute(pInter,pDummyConn,"InstallProtocolHandler");
+//    SCDeleteConnection(pDummyConn);
+}
+/*---------------------------------------------------------------------*/
+static void RemoveCommands(SicsInterp *pSics){
+//  RemoveCommand(pInter,"InstallProtocolHandler"0);
+//  RemoveCommand(pInter,"InstallSinfox");
+}
+/*-------------------------------------------------------------------*/
+/*@null@*/ static pMotor CreateMotorAnsto(SConnection *pCon, int argc, char *argv[])
+{
+  MotorDriver *pDriver = NULL;
+  pMotor pNew = NULL;
+  Tcl_Interp *pTcl = NULL;
+  char pBueffel[132];
+
+   /* create the motor */
+  strtolower(argv[1]);
+  if(strcmp(argv[1],"dmc2280") == 0) {
+    pDriver = (MotorDriver *)CreateDMC2280(pCon,argv[0],argv[2]); 
+    if(!pDriver){
+       return NULL;
+    }
+    pNew  = MotorInit("DMC2280",argv[0],pDriver);
+    if(!pNew) {
+      sprintf(pBueffel,"ERROR:SITE: Failure to create motor %s",argv[1]);
+      SCWrite(pCon,pBueffel,eError);
+      return NULL; 
+    }
+  }
+  if(strcmp(argv[1],"asim") == 0) {
+    pDriver = (MotorDriver *)CreateASIM(pCon,argc-2,&argv[2]);
+    if(!pDriver){
+       return NULL;
+    }
+    pNew  = MotorInit("ASIM",argv[0],pDriver);
+    if(!pNew) {
+      sprintf(pBueffel,"ERROR:SITE: Failure to create motor %s",argv[1]);
+      SCWrite(pCon,pBueffel,eError);
+      return NULL; 
+    }
+  }
+
+
+
+  return pNew;
+}
+/*extern pCounterDriver CreateCtrNitio10(SConnection *pCon,char *name,int argc,char *argv[]);                          */
+/*-------------------------------------------------------------------*/
+static pCounterDriver CreateCounterDriverAnsto(SConnection *pCon,
+					     int argc,
+					     char *argv[]){
+  pCounterDriver pNew = NULL;
+  if(strcmp(argv[2],"nitio10") == 0){
+      if(argc < 4){
+          SCWrite(pCon,
+             "ERROR:SITE: Insufficient arguments for NITIO10 counter",
+              eError);
+          return NULL;
+      }
+/*      pNew = CreateCtrNitio10(pCon,argv[1],argc-3,&argv[3]);*/
+  }
+  return pNew;
+}
+/*-------------------------------------------------------------------*/
+static HistDriver *CreateHistMem(char *name, pStringDict pOptions){
+  HistDriver *pNew = NULL;
+  
+  if(strcmp(name,"anstohm") == 0){
+//#ifdef __cplusplus
+    printf("try to CreateAnstoHM() ...\n");
+//    pNew = CreateAnstoHM(pOptions);
+//#endif /* __cplusplus */
+  }
+  
+  if(strcmp(name,"hm_mrpd") == 0){
+    printf("try to Create HM for MRPD ...\n");
+//    pNew = CreateHmMrpd(pOptions);
+  }
+  
+  if(strcmp(name,"hm_asim") == 0){
+//    pNew = CreateHmAsim(pOptions);
+  }
+  
+  return pNew;
+}
+/*-------------------------------------------------------------------*/
+static pVelSelDriv CreateVelSelDriv(char *name, char *array, 
+				       Tcl_Interp *pTcl){
+  pVelSelDriv pNew = NULL;
+  return pNew;
+}
+/*-------------------------------------------------------------------*/
+static pCodri CreateController(SConnection *pCon,int argc, char *argv[]){
+  pCodri pNew = NULL;
+  if(strcmp(argv[0],"tcpdocho") == 0){
+    if(argc < 2){
+      SCWrite(pCon,"ERROR: insufficient number of arguments for creating TcpDoCho",
+          eError);
+      return NULL;
+    }
+    return MakeTcpDoChoDriver(argv[1], pCon);
+  }
+  return pNew;
+}
+/*------------------------------------------------------------------*/
+static pEVControl InstallEnvironmentController(SicsInterp *pSics,
+						  SConnection *pCon,
+						 int argc, char *argv[]){
+  int status;
+  pEVControl pNew = NULL;
+  pEVDriver pDriv = NULL;
+  strtolower(argv[3]);
+
+
+  /* Added code for new LH45 driver */
+  if(strcmp(argv[3],"lh45") == 0) {
+    pDriv = CreateLH45Driver(argc-4,&argv[4]);
+    if(pDriv){
+      pNew = CreateEVController(pDriv,argv[2],&status);
+      if(pNew != NULL){
+        AddCommand(pSics,argv[2],LH45Wrapper,DeleteEVController,
+                   pNew);
+      }
+    }
+  }
+
+  /* Added code for new Lakeshore 340 driver */
+  if(strcmp(argv[3],"lakeshore340") == 0) {
+    pDriv = CreateLAKESHORE340Driver(argc-4,&argv[4]);
+    if(pDriv){
+      pNew = CreateEVController(pDriv,argv[2],&status);
+      if(pNew != NULL){
+        AddCommand(pSics,argv[2],LAKESHORE340Wrapper,DeleteEVController,
+                   pNew);
+      }
+    }
+  }
+
+  return pNew;
+}
+/*-----------------------------------------------------------------*/
+static int ConfigureScan(pScanData self, char *option){
+    if(!self) {
+        return 0;
+    }
+
+    return 0;
+}
+/*--------------------------------------------------------------------*/
+static void KillSite(void *site){
+  free(site);
+  siteANSTO = NULL;
+}
+/*---------------------------------------------------------------------
+  The scheme here goes along the lines of the singleton design pattern
+  ---------------------------------------------------------------------*/
+pSite getSite(void)
+{
+    if(siteANSTO == NULL)
+    {
+        siteANSTO = (pSite)malloc(sizeof(Site));
+        /*
+          we  cannot go on if we do not even have enough memory to allocate
+          the site data structure
+        */
+        assert(siteANSTO); 
+        /*
+          initializing function pointers
+        */
+        siteANSTO->AddSiteCommands = AddCommands;
+        siteANSTO->RemoveSiteCommands = RemoveCommands;
+        siteANSTO->CreateMotor = CreateMotorAnsto;
+        siteANSTO->CreateCounterDriver = CreateCounterDriverAnsto;
+        siteANSTO->CreateHistogramMemoryDriver = CreateHistMem; 
+        siteANSTO->CreateVelocitySelector = CreateVelSelDriv;
+        siteANSTO->CreateControllerDriver = CreateController;
+        siteANSTO->InstallEnvironmentController = InstallEnvironmentController;
+        siteANSTO->ConfigureScan = ConfigureScan;
+        siteANSTO->KillSite = KillSite;
+    }
+    return siteANSTO;
+}
+

site_ansto/site_dummy.c

@@ -0,0 +1,131 @@
+/*------------------------------------------------------------------------
+                                  D U M M Y
+
+ This is an empty site interface for SICS. Can be used as a starting
+ point for own site specific stuff.
+
+ copyright: see file COPYRIGHT
+
+ Mark Koennecke, June 2003
+ -----------------------------------------------------------------------*/
+#include <stdlib.h>
+#include <assert.h>
+#include <fortify.h>
+#include <sics.h>
+#include <motor.h>
+#include <tcl.h>
+#include <site.h>
+#include "anstohm.h"
+#include "dmc2143.h"
+
+static pSite siteANSTO = NULL;
+
+/*----------------------------------------------------------------------*/
+static void AddCommands(SicsInterp *pInter){
+  //AddCommand(pInter,"MakeRefl2T",Refl2TFactory,NULL,NULL);
+}
+/*---------------------------------------------------------------------*/
+static void RemoveCommands(SicsInterp *pSics){
+  //RemoveCommand(pInter,"MakeRefl2T");
+}
+/*-------------------------------------------------------------------*/
+static pMotor CreateMotor(SConnection *pCon, int argc, char *argv[]){
+
+  MotorDriver *pDriver = NULL;
+  pMotor pNew = NULL;
+  Tcl_Interp *pTcl = NULL;
+  char pBueffel[132];
+
+   /* create the motor */
+  strtolower(argv[1]);
+  if(strcmp(argv[1],"dmc2143") == 0){
+    pDriver = (MotorDriver *)CreateDMC2143(pCon,argc-2,&argv[2]);
+    if(!pDriver){
+       return NULL;
+    }
+    pNew  = MotorInit("DMC2143",argv[0],pDriver);
+    if(!pNew){
+      sprintf(pBueffel,"Failure to create motor %s",argv[1]);
+      SCWrite(pCon,pBueffel,eError);
+      return NULL; 
+    }
+  }
+  return pNew;
+}
+/*-------------------------------------------------------------------*/
+static pCounterDriver CreateAnstoCounterDriver(SConnection *pCon,
+					     int argc,
+					     char *argv[]){
+  pCounterDriver pNew = NULL;
+  return pNew;
+}
+/*-------------------------------------------------------------------*/
+static HistDriver *CreateHistMem(char *name, pStringDict pOptions){
+  HistDriver *pNew = NULL;
+  
+  if(strcmp(name,"anstohm") == 0){
+    printf("try to CreateAnstoHM() ...\n");
+#ifdef __cplusplus
+    pNew = CreateAnstoHM(pOptions);
+#endif /* __cplusplus */
+  }
+  return pNew;
+}
+/*-------------------------------------------------------------------*/
+static pVelSelDriv CreateVelSelDriv(char *name, char *array, 
+				       Tcl_Interp *pTcl){
+  pVelSelDriv pNew = NULL;
+  return pNew;
+}
+/*-------------------------------------------------------------------*/
+static pCodri CreateController(SConnection *pCon,int argc, char *argv[]){
+  pCodri pNew = NULL;
+  return pNew;
+}
+/*------------------------------------------------------------------*/
+static pEVControl InstallEnvironmentController(SicsInterp *pSics,
+						  SConnection *pCon,
+						 int argc, char *argv[]){
+  pEVControl pNew = NULL;
+  pEVDriver pDriv = NULL;
+
+  return pNew;
+}
+/*-----------------------------------------------------------------*/
+static int ConfigureScan(pScanData self, char *option){
+  return 0;
+}
+/*--------------------------------------------------------------------*/
+static void KillSite(void *site){
+  free(site);
+  siteANSTO = NULL;
+}
+/*---------------------------------------------------------------------
+  The scheme here goes along the lines of the singleton design pattern
+  ---------------------------------------------------------------------*/
+pSite getSite(void){
+  if(siteANSTO == NULL){
+    siteANSTO = (pSite)malloc(sizeof(Site));
+    /*
+      we  cannot go on if we do not even have enough memory to allocate
+      the site data structure
+    */
+    assert(siteANSTO); 
+    /*
+      initializing function pointers
+    */
+    siteANSTO->AddSiteCommands = AddCommands;
+    siteANSTO->RemoveSiteCommands = RemoveCommands;
+    siteANSTO->CreateMotor = CreateMotor;
+    siteANSTO->CreateCounterDriver = CreateAnstoCounterDriver;
+    siteANSTO->CreateHistogramMemoryDriver = CreateHistMem; 
+    siteANSTO->CreateVelocitySelector = CreateVelSelDriv;
+    siteANSTO->CreateControllerDriver = CreateController;
+    siteANSTO->InstallEnvironmentController = 
+          InstallEnvironmentController;
+    siteANSTO->ConfigureScan = ConfigureScan;
+    siteANSTO->KillSite = KillSite;
+  }
+  return siteANSTO;
+}
+