Merge pull request #177 from LRossman/contributor-lr

Changes to get Net1.inp to run

LICENSE

@@ -1,7 +1,11 @@
 MIT License
 
+<<<<<<< HEAD
 Works are copyright (c) 2018 their respective AUTHORS,
 unless such work is in the Public Domain (again, see AUTHORS)
+=======
+Copyright (c) 2017 Open Water Analytics
+>>>>>>> master
 
 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated documentation files (the "Software"), to deal

appveyor.yml

@@ -9,8 +9,23 @@
 
 version: 2.0.{build}
 
-image: 
-  - Visual Studio 2013
+matrix: 
+  allow_failures:
+  #GROUP: (SUPPORTED/EXPERIMENTAL)
+  #EXPERIMENTAL is allowed to fail under build matrix
+  - GROUP: "EXPERIMENTAL"
+
+environment: 
+  matrix:
+  - APPVEYOR_BUILD_WORKER_IMAGE: Visual Studio 2013
+    GENERATOR: "Visual Studio 10 2010"
+    GROUP: "SUPPORTED"
+    BOOST_ROOT: "C:/Libraries/boost"
+  # New build on Visual Studio 15 2017
+  - APPVEYOR_BUILD_WORKER_IMAGE: Visual Studio 2017
+    GENERATOR: "Visual Studio 15 2017"
+    GROUP: "EXPERIMENTAL"
+    BOOST_ROOT: "C:/Libraries/boost_1_67_0"
 
 # called before repo cloning
 init: 
@@ -18,8 +33,11 @@ init:
   - set BUILD_HOME=buildprod
   - set TEST_HOME=nrtestsuite
   - set NRTEST_SCRIPT=C:\Python27\Scripts
-  - set GENERATOR="Visual Studio 10 2010"
-  - set BOOST_ROOT="C:\\Libraries\\boost"
+  # See values set
+  - echo %APPVEYOR_BUILD_WORKER_IMAGE%
+  - echo %BUILD_HOME%
+  - echo %GENERATOR%
+  - echo %BOOST_ROOT%
 
 # called after repo clone
 install: 
@@ -29,7 +47,7 @@ install:
 before_build:
   - mkdir %BUILD_HOME%
   - cd %BUILD_HOME%
-  - cmake -G %GENERATOR% 
+  - cmake -G "%GENERATOR%" 
     -DBUILD_TESTS=1
     -DBOOST_ROOT="%BOOST_ROOT%"
     -DBoost_USE_STATIC_LIBS="ON" ..

run/main.c

@@ -5,9 +5,9 @@
 #define   MAXMSG         255       /* Max. # characters in message text      */
 #define   MAXWARNCODE    99      
 /* text copied here, no more need of include "text.h" */
-#define FMT01  "\nEPANET Version %d.%d.%d\n"
+#define FMT01  "\nEPANET Version %d.%d.%d"
 #define FMT03  "\n Correct syntax is:\n %s <input file> <output file>\n"
-#define FMT09  "\nEPANET completed.\n"
+#define FMT09  "\n\nEPANET completed."
 #define FMT10  "\nEPANET completed. There are warnings."
 #define FMT11  "\nEPANET completed. There are errors."
 
@@ -87,7 +87,8 @@ int   main(int argc, char *argv[])
   /* Call the main control function */
   if (strlen(f2)> 0) {
      /* use stdout for progress messages */
-     errcode = ENepanet(f1,f2,f3,writeConsole);
+     //errcode = ENepanet(f1,f2,f3,writeConsole);
+     errcode = ENepanet(f1, f2, f3, NULL);
   }
   else {
      /* use stdout for reporting, no progress messages */
@@ -101,21 +102,21 @@ int   main(int argc, char *argv[])
      return(0);
   }
   else {
+     if (errcode > MAXWARNCODE) printf("\n    Fatal Error: ");
      ENgeterror(errcode, errmsg, MAXMSG);
      writeConsole(errmsg);
      if (errcode > MAXWARNCODE) {
-     	/* error */
+     	// error //
         writeConsole(FMT11);
         return(errcode);
      }
      else {
-     	  /* warning */
+     	  // warning //
         writeConsole(FMT10);
         return(0);
      }
   }
 
-
 }                                       /* End of main */
 
 

src/epanet.c

@@ -108,6 +108,10 @@ execute function x and set the error code equal to its return value.
 #ifdef __WIN32__
 #define WINDOWS
 #endif
+#ifdef WINDOWS
+#include <windows.h>
+#endif
+
 /************************************************************/
 
 #include <stdio.h>
@@ -125,7 +129,6 @@ execute function x and set the error code equal to its return value.
 #include "text.h"
 #include "types.h"
 #define EXTERN
-#include "epanet2.h"
 #include "vars.h"
 
 /****************************************************************
@@ -166,218 +169,295 @@ int DLLEXPORT ENepanet(char *f1, char *f2, char *f3,
   EN_free(_defaultModel);
   return (errcode);
 }
+
 int DLLEXPORT ENopen(char *f1, char *f2, char *f3) {
   int errcode = 0;
   ERRCODE(EN_alloc(&_defaultModel));
   EN_open(_defaultModel, f1, f2, f3);
   return (errcode);
 }
+
 int DLLEXPORT ENsaveinpfile(char *filename) {
   return EN_saveinpfile(_defaultModel, filename);
 }
+
 int DLLEXPORT ENclose() { return EN_close(_defaultModel); }
+
 int DLLEXPORT ENsolveH() { return EN_solveH(_defaultModel); }
+
 int DLLEXPORT ENsaveH() { return EN_saveH(_defaultModel); }
+
 int DLLEXPORT ENopenH() { return EN_openH(_defaultModel); }
+
 int DLLEXPORT ENinitH(int flag) { return EN_initH(_defaultModel, flag); }
+
 int DLLEXPORT ENrunH(long *t) { return EN_runH(_defaultModel, t); }
+
 int DLLEXPORT ENnextH(long *tstep) { return EN_nextH(_defaultModel, tstep); }
+
 int DLLEXPORT ENcloseH() { return EN_closeH(_defaultModel); }
+
 int DLLEXPORT ENsavehydfile(char *filename) {
   return EN_savehydfile(_defaultModel, filename);
 }
+
 int DLLEXPORT ENusehydfile(char *filename) {
   return EN_usehydfile(_defaultModel, filename);
 }
+
 int DLLEXPORT ENsolveQ() { return EN_solveQ(_defaultModel); }
+
 int DLLEXPORT ENopenQ() { return EN_openQ(_defaultModel); }
+
 int DLLEXPORT ENinitQ(int saveflag) {
   return EN_initQ(_defaultModel, saveflag);
 }
+
 int DLLEXPORT ENrunQ(long *t) { return EN_runQ(_defaultModel, t); }
+
 int DLLEXPORT ENnextQ(long *tstep) { return EN_nextQ(_defaultModel, tstep); }
+
 int DLLEXPORT ENstepQ(long *tleft) { return EN_stepQ(_defaultModel, tleft); }
+
 int DLLEXPORT ENcloseQ() { return EN_closeQ(_defaultModel); }
+
 int DLLEXPORT ENwriteline(char *line) {
   return EN_writeline(_defaultModel, line);
 }
+
 int DLLEXPORT ENreport() { return EN_report(_defaultModel); }
+
 int DLLEXPORT ENresetreport() { return EN_resetreport(_defaultModel); }
+
 int DLLEXPORT ENsetreport(char *s) { return EN_setreport(_defaultModel, s); }
+
 int DLLEXPORT ENgetversion(int *v) { return EN_getversion(v); }
+
 int DLLEXPORT ENgetcontrol(int cindex, int *ctype, int *lindex,
                            EN_API_FLOAT_TYPE *setting, int *nindex,
                            EN_API_FLOAT_TYPE *level) {
   return EN_getcontrol(_defaultModel, cindex, ctype, lindex, setting, nindex,
                        level);
 }
+
 int DLLEXPORT ENgetcount(int code, int *count) {
   return EN_getcount(_defaultModel, (EN_CountType)code, count);
 }
+
 int DLLEXPORT ENgetoption(int code, EN_API_FLOAT_TYPE *value) {
   return EN_getoption(_defaultModel, (EN_Option)code, value);
 }
+
 int DLLEXPORT ENgettimeparam(int code, long *value) {
   return EN_gettimeparam(_defaultModel, code, value);
 }
+
 int DLLEXPORT ENgetflowunits(int *code) {
   return EN_getflowunits(_defaultModel, code);
 }
+
 int DLLEXPORT ENsetflowunits(int code) {
   return EN_setflowunits(_defaultModel, code);
 }
+
 int DLLEXPORT ENgetpatternindex(char *id, int *index) {
   return EN_getpatternindex(_defaultModel, id, index);
 }
+
 int DLLEXPORT ENgetpatternid(int index, char *id) {
   return EN_getpatternid(_defaultModel, index, id);
 }
+
 int DLLEXPORT ENgetpatternlen(int index, int *len) {
   return EN_getpatternlen(_defaultModel, index, len);
 }
+
 int DLLEXPORT ENgetpatternvalue(int index, int period,
                                 EN_API_FLOAT_TYPE *value) {
   return EN_getpatternvalue(_defaultModel, index, period, value);
 }
+
 int DLLEXPORT ENgetcurveindex(char *id, int *index) {
   return EN_getcurveindex(_defaultModel, id, index);
 }
+
 int DLLEXPORT ENgetcurveid(int index, char *id) {
   return EN_getcurveid(_defaultModel, index, id);
 }
+
 int DLLEXPORT ENgetcurvelen(int index, int *len) {
   return EN_getcurvelen(_defaultModel, index, len);
 }
+
 int DLLEXPORT ENgetcurvevalue(int index, int pnt, EN_API_FLOAT_TYPE *x,
                               EN_API_FLOAT_TYPE *y) {
   return EN_getcurvevalue(_defaultModel, index, pnt, x, y);
 }
+
 int DLLEXPORT ENgetqualtype(int *qualcode, int *tracenode) {
   return EN_getqualtype(_defaultModel, qualcode, tracenode);
 }
+
 int DLLEXPORT ENgetqualinfo(int *qualcode, char *chemname, char *chemunits,
                             int *tracenode) {
   return EN_getqualinfo(_defaultModel, qualcode, chemname, chemunits,
                         tracenode);
 }
+
 int DLLEXPORT ENgeterror(int errcode, char *errmsg, int n) {
   return EN_geterror(errcode, errmsg, n);
 }
+
 int DLLEXPORT ENgetstatistic(int code, EN_API_FLOAT_TYPE *value) {
   return EN_getstatistic(_defaultModel, code, value);
 }
+
 int DLLEXPORT ENgetnodeindex(char *id, int *index) {
   return EN_getnodeindex(_defaultModel, id, index);
 }
+
 int DLLEXPORT ENgetnodeid(int index, char *id) {
   return EN_getnodeid(_defaultModel, index, id);
 }
+
 int DLLEXPORT ENgetnodetype(int index, int *code) {
   return EN_getnodetype(_defaultModel, index, code);
 }
+
 int DLLEXPORT ENgetcoord(int index, EN_API_FLOAT_TYPE *x,
                          EN_API_FLOAT_TYPE *y) {
   return EN_getcoord(_defaultModel, index, x, y);
 }
+
 int DLLEXPORT ENsetcoord(int index, EN_API_FLOAT_TYPE x, EN_API_FLOAT_TYPE y) {
   return EN_setcoord(_defaultModel, index, x, y);
 }
+
 int DLLEXPORT ENgetnodevalue(int index, int code, EN_API_FLOAT_TYPE *value) {
   return EN_getnodevalue(_defaultModel, index, code, value);
 }
+
 int DLLEXPORT ENgetlinkindex(char *id, int *index) {
   return EN_getlinkindex(_defaultModel, id, index);
 }
+
 int DLLEXPORT ENgetlinkid(int index, char *id) {
   return EN_getlinkid(_defaultModel, index, id);
 }
+
 int DLLEXPORT ENgetlinktype(int index, EN_LinkType *code) {
   return EN_getlinktype(_defaultModel, index, code);
 }
+
 int DLLEXPORT ENgetlinknodes(int index, int *node1, int *node2) {
   return EN_getlinknodes(_defaultModel, index, node1, node2);
 }
+
 int DLLEXPORT ENgetlinkvalue(int index, int code, EN_API_FLOAT_TYPE *value) {
   return EN_getlinkvalue(_defaultModel, index, (EN_LinkProperty)code, value);
 }
+
 int DLLEXPORT ENgetcurve(int curveIndex, char *id, int *nValues,
                          EN_API_FLOAT_TYPE **xValues,
                          EN_API_FLOAT_TYPE **yValues) {
   return EN_getcurve(_defaultModel, curveIndex, id, nValues, xValues, yValues);
 }
+
 int DLLEXPORT ENsetcontrol(int cindex, int ctype, int lindex,
                            EN_API_FLOAT_TYPE setting, int nindex,
                            EN_API_FLOAT_TYPE level) {
   return EN_setcontrol(_defaultModel, cindex, ctype, lindex, setting, nindex,
                        level);
 }
+
 int DLLEXPORT ENsetnodevalue(int index, int code, EN_API_FLOAT_TYPE v) {
   return EN_setnodevalue(_defaultModel, index, code, v);
 }
+
 int DLLEXPORT ENsetlinkvalue(int index, int code, EN_API_FLOAT_TYPE v) {
   return EN_setlinkvalue(_defaultModel, index, code, v);
 }
+
 int DLLEXPORT ENaddpattern(char *id) {
   return EN_addpattern(_defaultModel, id);
 }
+
 int DLLEXPORT ENsetpattern(int index, EN_API_FLOAT_TYPE *f, int n) {
   return EN_setpattern(_defaultModel, index, f, n);
 }
+
 int DLLEXPORT ENsetpatternvalue(int index, int period,
                                 EN_API_FLOAT_TYPE value) {
   return EN_setpatternvalue(_defaultModel, index, period, value);
 }
+
 int DLLEXPORT ENaddcurve(char *id) { return EN_addcurve(_defaultModel, id); }
+
 int DLLEXPORT ENsetcurve(int index, EN_API_FLOAT_TYPE *x, EN_API_FLOAT_TYPE *y,
                          int n) {
   return EN_setcurve(_defaultModel, index, x, y, n);
 }
+
 int DLLEXPORT ENsetcurvevalue(int index, int pnt, EN_API_FLOAT_TYPE x,
                               EN_API_FLOAT_TYPE y) {
   return EN_setcurvevalue(_defaultModel, index, pnt, x, y);
 }
+
 int DLLEXPORT ENsettimeparam(int code, long value) {
   return EN_settimeparam(_defaultModel, code, value);
 }
+
 int DLLEXPORT ENsetoption(int code, EN_API_FLOAT_TYPE v) {
   return EN_setoption(_defaultModel, code, v);
 }
+
 int DLLEXPORT ENsetstatusreport(int code) {
   return EN_setstatusreport(_defaultModel, code);
 }
+
 int DLLEXPORT ENsetqualtype(int qualcode, char *chemname, char *chemunits,
                             char *tracenode) {
   return EN_setqualtype(_defaultModel, qualcode, chemname, chemunits,
                         tracenode);
 }
+
 int DLLEXPORT ENgetheadcurveindex(int index, int *curveindex) {
   return EN_getheadcurveindex(_defaultModel, index, curveindex);
 }
+
 int DLLEXPORT ENsetheadcurveindex(int index, int curveindex) {
   return EN_setheadcurveindex(_defaultModel, index, curveindex);
 }
+
 int DLLEXPORT ENgetpumptype(int index, int *type) {
   return EN_getpumptype(_defaultModel, index, type);
 }
+
 int DLLEXPORT ENgetnumdemands(int nodeIndex, int *numDemands) {
   return EN_getnumdemands(_defaultModel, nodeIndex, numDemands);
 }
+
 int DLLEXPORT ENgetbasedemand(int nodeIndex, int demandIdx,
                               EN_API_FLOAT_TYPE *baseDemand) {
   return EN_getbasedemand(_defaultModel, nodeIndex, demandIdx, baseDemand);
 }
+
 int DLLEXPORT ENsetbasedemand(int nodeIndex, int demandIdx,
                               EN_API_FLOAT_TYPE baseDemand) {
   return EN_setbasedemand(_defaultModel, nodeIndex, demandIdx, baseDemand);
 }
+
 int DLLEXPORT ENgetdemandpattern(int nodeIndex, int demandIdx, int *pattIdx) {
   return EN_getdemandpattern(_defaultModel, nodeIndex, demandIdx, pattIdx);
 }
+
 int DLLEXPORT ENgetaveragepatternvalue(int index, EN_API_FLOAT_TYPE *value) {
   return EN_getaveragepatternvalue(_defaultModel, index, value);
 }
 
-int DLLEXPORT ENgetrule(int index, int *nPremises, int *nTrueActions, int *nFalseActions, EN_API_FLOAT_TYPE *priority) {
+
+int DLLEXPORT ENgetrule(int index, int *nPremises, int *nTrueActions,
+                        int *nFalseActions, EN_API_FLOAT_TYPE *priority) {
   return EN_getrule(_defaultModel, index, nPremises, nTrueActions, nFalseActions, priority);
 }
 
@@ -405,19 +485,23 @@ int DLLEXPORT ENsetpremisevalue(int indexRule, int indexPremise, EN_API_FLOAT_TY
   return EN_setpremisevalue(_defaultModel, indexRule, indexPremise, value);
 }
 
-int DLLEXPORT ENgettrueaction(int indexRule, int indexAction, int *indexLink, int *status, EN_API_FLOAT_TYPE *setting){
+int DLLEXPORT ENgettrueaction(int indexRule, int indexAction, int *indexLink,
+                              int *status, EN_API_FLOAT_TYPE *setting){
   return EN_gettrueaction(_defaultModel, indexRule, indexAction, indexLink, status, setting);
 }
 
-int DLLEXPORT ENsettrueaction(int indexRule, int indexAction, int indexLink, int status, EN_API_FLOAT_TYPE setting){
+int DLLEXPORT ENsettrueaction(int indexRule, int indexAction, int indexLink,
+                              int status, EN_API_FLOAT_TYPE setting){
   return EN_settrueaction(_defaultModel, indexRule, indexAction, indexLink, status, setting);
 }
 
-int DLLEXPORT ENgetfalseaction(int indexRule, int indexAction, int *indexLink, int *status, EN_API_FLOAT_TYPE *setting){
+int DLLEXPORT ENgetfalseaction(int indexRule, int indexAction, int *indexLink,
+                               int *status, EN_API_FLOAT_TYPE *setting){
   return EN_getfalseaction(_defaultModel, indexRule, indexAction, indexLink, status, setting);
 }
 
-int DLLEXPORT ENsetfalseaction(int indexRule, int indexAction, int indexLink, int status, EN_API_FLOAT_TYPE setting){
+int DLLEXPORT ENsetfalseaction(int indexRule, int indexAction, int indexLink,
+                               int status, EN_API_FLOAT_TYPE setting){
   return EN_setfalseaction(_defaultModel, indexRule, indexAction, indexLink, status, setting);
 }
 
@@ -428,16 +512,20 @@ int DLLEXPORT ENgetruleID(int indexRule, char* id){
 int DLLEXPORT ENsetlinktype(char *id, EN_LinkType toType) {
   return EN_setlinktype(_defaultModel, id, toType);
 }
+
 int DLLEXPORT ENaddnode(char *id, EN_NodeType nodeType) {
   return EN_addnode(_defaultModel, id, nodeType);
 }
+
 int DLLEXPORT ENaddlink(char *id, EN_LinkType linkType, char *fromNode,
                         char *toNode) {
   return EN_addlink(_defaultModel, id, linkType, fromNode, toNode);
 }
+
 int DLLEXPORT ENdeletelink(int index) {
   return EN_deletelink(_defaultModel, index);
 }
+
 int DLLEXPORT ENdeletenode(int index) {
   return EN_deletenode(_defaultModel, index);
 }
@@ -707,7 +795,6 @@ int DLLEXPORT EN_solveH(EN_Project *p)
         tstep = 0;
         ERRCODE(EN_runH(p, &t));
         ERRCODE(EN_nextH(p, &tstep));
-
         /*** Updated 6/24/02 ***/
         writecon("\b\b\b\b\b\b\b\b\b\b");
       } while (tstep > 0);
@@ -825,8 +912,10 @@ int DLLEXPORT EN_initH(EN_Project *p, int flag)
     errcode = openhydfile(p);
     if (!errcode)
       p->save_options.Saveflag = TRUE;
-    else
+    else {
       errmsg(p, errcode);
+      return errcode;
+      }
   }
 
   /* Initialize hydraulics */
@@ -1546,7 +1635,7 @@ int DLLEXPORT EN_geterror(int errcode, char *errmsg, int n) {
     strncpy(errmsg, WARN6, n);
     break;
   default:
-    geterrmsg(n, newMsg);
+    geterrmsg(errcode, newMsg);
     strncpy(errmsg, newMsg, n);
   }
   if (strlen(errmsg) == 0)
@@ -3330,7 +3419,7 @@ int openhydfile(EN_Project *p)
   out->HydFile = NULL;
   switch (out->Hydflag) {
   case SCRATCH:
-    getTmpName(p, out->HydFname);             
+    getTmpName(out->HydFname); 
     out->HydFile = fopen(out->HydFname, "w+b"); 
     break;
   case SAVE:
@@ -3423,7 +3512,7 @@ int openoutfile(EN_Project *p)
   // else if ( (OutFile = tmpfile()) == NULL) 
   else 
   {
-    getTmpName(p, out->OutFname);                           
+    getTmpName(out->OutFname);                           
     if ((out->OutFile = fopen(out->OutFname, "w+b")) == NULL) 
     {
       writecon(FMT08);
@@ -3441,7 +3530,7 @@ int openoutfile(EN_Project *p)
   if (!errcode) {
     if (rep->Tstatflag != SERIES) {
       // if ( (TmpOutFile = tmpfile()) == NULL) errcode = 304; 
-      getTmpName(p, out->TmpFname);                
+      getTmpName(out->TmpFname);                
       out->TmpOutFile = fopen(out->TmpFname, "w+b"); 
       if (out->TmpOutFile == NULL)
         errcode = 304; 
@@ -3748,17 +3837,35 @@ void freedata(EN_Project *p)
 ----------------------------------------------------------------
 */
 
-/*** New function for 2.00.12 ***/ 
-char *getTmpName(EN_Project *p, char *fname)
+char *getTmpName(char *fname)
 //
 //  Input:   fname = file name string
 //  Output:  returns pointer to file name
 //  Purpose: creates a temporary file name with path prepended to it.
 //
 {
-  out_file_t *out = &p->out_files;
+
+#ifdef _WIN32
+
+  char* name = NULL;
+
+  // --- use Windows _tempnam function to get a pointer to an
+  //     unused file name that begins with "en"
+  name = _tempnam(NULL, "en");
+  if (name == NULL) return NULL;
+
+  // --- copy the file name to fname
+  if (strlen(name) < MAXFNAME) strncpy(fname, name, MAXFNAME);
+  else fname = NULL;
+
+  // --- free the pointer returned by _tempnam
+  if (name) free(name);
+
+/*
+///////////////////  DEPRECATED   /////////////////////////////////////
 // --- for Windows systems:
 #ifdef WINDOWS
+  out_file_t *out = &p->out_files;
   // --- use system function tmpnam() to create a temporary file name
   char name[MAXFNAME + 1];
   int n;
@@ -3782,6 +3889,7 @@ char *getTmpName(EN_Project *p, char *fname)
 
   // --- now add the prefix to the file name
   strcat(fname, name);
+*/
 
 // --- for non-Windows systems:
 #else

src/funcs.h

@@ -31,32 +31,32 @@ AUTHOR:     L. Rossman
 
 #include "types.h"
 
-void    initpointers(EN_Project *p);               /* Initializes pointers       */
-int     allocdata(EN_Project *p);                  /* Allocates memory           */
-void    freeTmplist(STmplist *);          /* Frees items in linked list */
-void    freeFloatlist(SFloatlist *);      /* Frees list of floats       */
-void    freedata(EN_Project *p);                   /* Frees allocated memory     */
+void    initpointers(EN_Project *p);                /* Initializes pointers       */
+int     allocdata(EN_Project *p);                   /* Allocates memory           */
+void    freeTmplist(STmplist *);                    /* Frees items in linked list */
+void    freeFloatlist(SFloatlist *);                /* Frees list of floats       */
+void    freedata(EN_Project *p);                    /* Frees allocated memory     */
 int     openfiles(EN_Project *p, char *,char *,char *);  /* Opens input & report files */
-int     openhydfile(EN_Project *p);                /* Opens hydraulics file      */
-int     openoutfile(EN_Project *p);                /* Opens binary output file   */
-int     strcomp(char *, char *);          /* Compares two strings       */
-char*   getTmpName(EN_Project *p, char* fname);          /* Gets temporary file name   */     
-double  interp(int, double *,double *, double);             /* Interpolates a data curve  */
+int     openhydfile(EN_Project *p);                 /* Opens hydraulics file      */
+int     openoutfile(EN_Project *p);                 /* Opens binary output file   */
+int     strcomp(char *, char *);                    /* Compares two strings       */
+char*   getTmpName(char* fname);                    /* Gets temporary file name   */     
+double  interp(int, double *,double *, double);     /* Interpolates a data curve  */
                
-int     findnode(EN_Network *n, char *);                 /* Finds node's index from ID */
-int     findlink(EN_Network *n, char *);                 /* Finds link's index from ID */
-int     findtank(EN_Network *n, int);                    /* Find tank index from node index */  // (AH)
-int     findvalve(EN_Network *n, int);                   /* Find valve index from node index */ // (AH)
-int     findpump(EN_Network *n, int);                    /* Find pump index from node index */  // (AH)
-char   *geterrmsg(int errcode, char *msg);                   /* Gets text of error message */
-void    errmsg(EN_Project *p, int);                      /* Reports program error      */
-void    writecon(char *);                 /* Writes text to console     */
+int     findnode(EN_Network *n, char *);            /* Finds node's index from ID */
+int     findlink(EN_Network *n, char *);            /* Finds link's index from ID */
+int     findtank(EN_Network *n, int);               /* Find tank index from node index */  // (AH)
+int     findvalve(EN_Network *n, int);              /* Find valve index from node index */ // (AH)
+int     findpump(EN_Network *n, int);               /* Find pump index from node index */  // (AH)
+char   *geterrmsg(int errcode, char *msg);          /* Gets text of error message */
+void    errmsg(EN_Project *p, int);                 /* Reports program error      */
+void    writecon(char *);                           /* Writes text to console     */
 void    writewin(void (*vp)(char *), char *);                 /* Passes text to calling app */
 
 /* ------- INPUT1.C --------------------*/
 int     getdata(EN_Project *pr);                    /* Gets network data          */
 void    setdefaults(EN_Project *pr);                /* Sets default values        */
-void    initreport(report_options_t *r);                 /* Initializes report options */
+void    initreport(report_options_t *r);            /* Initializes report options */
 void    adjustdata(EN_Project *pr);                 /* Adjusts input data         */
 int     inittanks(EN_Project *pr);                  /* Initializes tank levels    */
 void    initunits(EN_Project *pr);                  /* Determines reporting units */
@@ -65,23 +65,23 @@ void    convertunits(EN_Project *pr);               /* Converts data to std. uni
 /* -------- INPUT2.C -------------------*/
 int     netsize(EN_Project *pr);                    /* Determines network size    */
 int     readdata(EN_Project *pr);                   /* Reads in network data      */
-int     newline(EN_Project *pr, int, char *);             /* Processes new line of data */
-int     addnodeID(EN_Network *n, int, char *);           /* Adds node ID to data base  */
-int     addlinkID(EN_Network *n, int, char *);           /* Adds link ID to data base  */
-int     addpattern(parser_data_t *par, char *);               /* Adds pattern to data base  */
-int     addcurve(parser_data_t *par, char *);                 /* Adds curve to data base    */
-STmplist *findID(char *, STmplist *);     /* Locates ID on linked list  */
+int     newline(EN_Project *pr, int, char *);       /* Processes new line of data */
+int     addnodeID(EN_Network *n, int, char *);      /* Adds node ID to data base  */
+int     addlinkID(EN_Network *n, int, char *);      /* Adds link ID to data base  */
+int     addpattern(parser_data_t *par, char *);     /* Adds pattern to data base  */
+int     addcurve(parser_data_t *par, char *);       /* Adds curve to data base    */
+STmplist *findID(char *, STmplist *);               /* Locates ID on linked list  */
 int     unlinked(EN_Project *pr);                   /* Checks for unlinked nodes  */
 int     getpumpparams(EN_Project *pr);              /* Computes pump curve coeffs.*/
 int     getpatterns(EN_Project *pr);                /* Gets pattern data from list*/
 int     getcurves(EN_Project *pr);                  /* Gets curve data from list  */
-int     findmatch(char *, char *[]);       /* Finds keyword in line      */
-int     match(const char *, const char *);            /* Checks for word match      */
+int     findmatch(char *, char *[]);                /* Finds keyword in line      */
+int     match(const char *, const char *);          /* Checks for word match      */
 int     gettokens(char *s, char** Tok, int maxToks, char *comment); /* Tokenizes input line       */
-int     getfloat(char *, double *);       /* Converts string to double   */
-double  hour(char *, char *);             /* Converts time to hours     */
-int     setreport(EN_Project *pr, char *);                /* Processes reporting command*/
-void    inperrmsg(EN_Project *pr, int,int,char *);        /* Input error message        */
+int     getfloat(char *, double *);                 /* Converts string to double   */
+double  hour(char *, char *);                       /* Converts time to hours     */
+int     setreport(EN_Project *pr, char *);          /* Processes reporting command*/
+void    inperrmsg(EN_Project *pr, int,int,char *);  /* Input error message        */
 
 /* ---------- INPUT3.C -----------------*/
 int     juncdata(EN_Project *pr);                   /* Processes junction data    */
@@ -104,188 +104,206 @@ int     statusdata(EN_Project *pr);                 /* Processes link status dat
 int     reportdata(EN_Project *pr);                 /* Processes report options   */
 int     timedata(EN_Project *pr);                   /* Processes time options     */
 int     optiondata(EN_Project *pr);                 /* Processes analysis options */
-int     optionchoice(EN_Project *pr, int);                /* Processes option choices   */
-int     optionvalue(EN_Project *pr, int);                 /* Processes option values    */
-int     getpumpcurve(EN_Project *pr, int);                /* Constructs a pump curve    */
-int     powercurve(double, double, double,/* Coeffs. of power pump curve*/
+int     optionchoice(EN_Project *pr, int);          /* Processes option choices   */
+int     optionvalue(EN_Project *pr, int);           /* Processes option values    */
+int     getpumpcurve(EN_Project *pr, int);          /* Constructs a pump curve    */
+int     powercurve(double, double, double,          /* Coeffs. of power pump curve*/
                    double, double, double *,
                    double *, double *);
-int     valvecheck(EN_Project *pr, int, int, int);        /* Checks valve placement     */
+int     valvecheck(EN_Project *pr, int, int, int);  /* Checks valve placement     */
 void    changestatus(EN_Network *net, int, StatType, double);  /* Changes status of a link   */
 
 /* -------------- RULES.C --------------*/
 void    initrules(rules_t *rules);                  /* Initializes rule base      */
-void    addrule(parser_data_t *par, char *);                  /* Adds rule to rule base     */
+void    addrule(parser_data_t *par, char *);        /* Adds rule to rule base     */
 int     allocrules(EN_Project *pr);                 /* Allocates memory for rule  */
 int     ruledata(EN_Project *pr);                   /* Processes rule input data  */
-int     checkrules(EN_Project *pr, long);                 /* Checks all rules           */
+int     checkrules(EN_Project *pr, long);           /* Checks all rules           */
 void    freerules(EN_Project *pr);                  /* Frees rule base memory     */  
+int     writeRuleinInp(EN_Project *pr, FILE *f,     /* Writes rule to an INP file */
+                      int RuleIdx);
 
 /* ------------- REPORT.C --------------*/
 int     writereport(EN_Project *pr);                /* Writes formatted report    */
 void    writelogo(EN_Project *pr);                  /* Writes program logo        */
 void    writesummary(EN_Project *pr);               /* Writes network summary     */
-void    writehydstat(EN_Project *pr, int,double);          /* Writes hydraulic status    */
+void    writehydstat(EN_Project *pr, int,double);   /* Writes hydraulic status    */
 void    writeenergy(EN_Project *pr);                /* Writes energy usage        */
 int     writeresults(EN_Project *pr);               /* Writes node/link results   */
-void    writeheader(EN_Project *pr, int,int);             /* Writes heading on report   */
-void    writeline(EN_Project *pr, char *);                /* Writes line to report file */
-void    writerelerr(EN_Project *pr, int, double);          /* Writes convergence error   */
+void    writeheader(EN_Project *pr, int,int);       /* Writes heading on report   */
+void    writeline(EN_Project *pr, char *);          /* Writes line to report file */
+void    writerelerr(EN_Project *pr, int, double);   /* Writes convergence error   */
 void    writestatchange(EN_Project *pr, int,char,char);   /* Writes link status change  */
 void    writecontrolaction(EN_Project *pr, int, int);     /* Writes control action taken*/
 void    writeruleaction(EN_Project *pr, int, char *);     /* Writes rule action taken   */
 int     writehydwarn(EN_Project *pr, int,double);          /* Writes hydraulic warnings  */
 void    writehyderr(EN_Project *pr, int);                 /* Writes hydraulic error msg.*/
-int     disconnected(EN_Project *pr);               /* Checks for disconnections  */
+int     disconnected(EN_Project *pr);                     /* Checks for disconnections  */
 void    marknodes(EN_Project *pr, int, int *, char *);    /* Identifies connected nodes */
 void    getclosedlink(EN_Project *pr, int, char *);       /* Finds a disconnecting link */
 void    writelimits(EN_Project *pr, int,int);             /* Writes reporting limits    */
 int     checklimits(report_options_t *rep, double *,int,int);     /* Checks variable limits     */
 void    writetime(EN_Project *pr, char *);                /* Writes current clock time  */
-char    *clocktime(char *, long);         /* Converts time to hrs:min   */
-char    *fillstr(char *, char, int);      /* Fills string with character*/
-int     getnodetype(EN_Network *net, int);                 /* Determines node type       */
+char    *clocktime(char *, long);                         /* Converts time to hrs:min   */
+char    *fillstr(char *, char, int);                      /* Fills string with character*/
+int     getnodetype(EN_Network *net, int);                /* Determines node type       */
 
 /* --------- HYDRAUL.C -----------------*/
 int     openhyd(EN_Project *pr);                    /* Opens hydraulics solver    */
 
 /*** Updated 3/1/01 ***/
-void    inithyd(EN_Project *pr, int initFlags);                     /* Re-sets initial conditions */
+void    inithyd(EN_Project *pr, int initFlags);     /* Re-sets initial conditions */
 
-int     runhyd(EN_Project *pr, long *);                   /* Solves 1-period hydraulics */
-int     nexthyd(EN_Project *pr, long *);                  /* Moves to next time period  */
+int     runhyd(EN_Project *pr, long *);             /* Solves 1-period hydraulics */
+int     nexthyd(EN_Project *pr, long *);            /* Moves to next time period  */
 void    closehyd(EN_Project *pr);                   /* Closes hydraulics solver   */
 int     allocmatrix(EN_Project *pr);                /* Allocates matrix coeffs.   */
 void    freematrix(EN_Project *pr);                 /* Frees matrix coeffs.       */
-void    initlinkflow(EN_Project *pr, int, char, double);  /* Initializes link flow      */
-void    setlinkflow(EN_Project *pr, int, double);         /* Sets link flow via headloss*/
-void    setlinkstatus(EN_Project *pr, int, char, StatType *, double *);  /* Sets link status           */
+void    initlinkflow(EN_Project *pr, int, char,
+                     double);                       /* Initializes link flow      */
+void    setlinkflow(EN_Project *pr, int, double);   /* Sets link flow via headloss*/
+void    setlinkstatus(EN_Project *pr, int, char,
+                      StatType *, double *);        /* Sets link status           */
                       
-void    setlinksetting(EN_Project *pr, int, double, StatType *, double *);       /* Sets pump/valve setting    */
+void    setlinksetting(EN_Project *pr, int, double,
+                       StatType *, double *);       /* Sets pump/valve setting    */
                        
-void    resistance(EN_Project *pr, int);                  /* Computes resistance coeff. */
+void    resistance(EN_Project *pr, int);            /* Computes resistance coeff. */
 void    demands(EN_Project *pr);                    /* Computes current demands   */
 int     controls(EN_Project *pr);                   /* Controls link settings     */
 long    timestep(EN_Project *pr);                   /* Computes new time step     */
-int     tanktimestep(EN_Project *pr, long *);             /* Time till tanks fill/drain */
-void    controltimestep(EN_Project *pr, long *);          /* Time till control action   */
-void    ruletimestep(EN_Project *pr, long *);             /* Time till rule action      */
-void    addenergy(EN_Project *pr, long);                  /* Accumulates energy usage   */
-void    getenergy(EN_Project *pr, int, double *, double *); /* Computes link energy use   */
-void    tanklevels(EN_Project *pr, long);                 /* Computes new tank levels   */
-double  tankvolume(EN_Project *pr, int,double);           /* Finds tank vol. from grade */
-double  tankgrade(EN_Project *pr, int,double);            /* Finds tank grade from vol. */
-int     netsolve(EN_Project *pr, int *,double *);         /* Solves network equations   */
-int     badvalve(EN_Project *pr, int);                    /* Checks for bad valve       */
+int     tanktimestep(EN_Project *pr, long *);       /* Time till tanks fill/drain */
+void    controltimestep(EN_Project *pr, long *);    /* Time till control action   */
+void    ruletimestep(EN_Project *pr, long *);       /* Time till rule action      */
+void    addenergy(EN_Project *pr, long);            /* Accumulates energy usage   */
+void    getenergy(EN_Project *pr, int, double *,
+                  double *);                        /* Computes link energy use   */
+void    tanklevels(EN_Project *pr, long);           /* Computes new tank levels   */
+double  tankvolume(EN_Project *pr, int,double);     /* Finds tank vol. from grade */
+double  tankgrade(EN_Project *pr, int,double);      /* Finds tank grade from vol. */
+int     netsolve(EN_Project *pr, int *,double *);   /* Solves network equations   */
+int     badvalve(EN_Project *pr, int);              /* Checks for bad valve       */
 int     valvestatus(EN_Project *pr);                /* Updates valve status       */
 int     linkstatus(EN_Project *pr);                 /* Updates link status        */
-StatType    cvstatus(EN_Project *pr, StatType,double,double);     /* Updates CV status          */
-StatType    pumpstatus(EN_Project *pr, int,double);           /* Updates pump status        */
-StatType    prvstatus(EN_Project *pr, int,StatType,double,double,double);       /* Updates PRV status         */
+StatType    cvstatus(EN_Project *pr, StatType,
+                     double,double);                /* Updates CV status          */
+StatType    pumpstatus(EN_Project *pr, int,double); /* Updates pump status        */
+StatType    prvstatus(EN_Project *pr, int,StatType,
+                      double,double,double);        /* Updates PRV status         */
                   
-StatType    psvstatus(EN_Project *pr, int,StatType,double,double,double);        /* Updates PSV status         */
+StatType    psvstatus(EN_Project *pr, int,StatType,
+                      double,double,double);        /* Updates PSV status         */
                   
-StatType    fcvstatus(EN_Project *pr, int,StatType,double,double);        /* Updates FCV status         */
+StatType    fcvstatus(EN_Project *pr, int,StatType,
+                      double,double);               /* Updates FCV status         */
                   
-void    tankstatus(EN_Project *pr, int,int,int);          /* Checks if tank full/empty  */
+void    tankstatus(EN_Project *pr, int,int,int);    /* Checks if tank full/empty  */
 int     pswitch(EN_Project *pr);                    /* Pressure switch controls   */
 double  newflows(EN_Project *pr);                   /* Updates link flows         */
 void    newcoeffs(EN_Project *pr);                  /* Computes matrix coeffs.    */
 void    linkcoeffs(EN_Project *pr);                 /* Computes link coeffs.      */
 void    nodecoeffs(EN_Project *pr);                 /* Computes node coeffs.      */
 void    valvecoeffs(EN_Project *pr);                /* Computes valve coeffs.     */
-void    pipecoeff(EN_Project *pr, int);                   /* Computes pipe coeff.       */
-double  DWcoeff(EN_Project *pr, int, double *);           /* Computes D-W coeff.        */
-void    pumpcoeff(EN_Project *pr, int);                   /* Computes pump coeff.       */
+void    pipecoeff(EN_Project *pr, int);             /* Computes pipe coeff.       */
+double  DWcoeff(EN_Project *pr, int, double *);     /* Computes D-W coeff.        */
+void    pumpcoeff(EN_Project *pr, int);             /* Computes pump coeff.       */
 
 /*** Updated 10/25/00 ***/
 /*** Updated 12/29/00 ***/
-void    curvecoeff(EN_Project *pr, int,double,double *,double *);   /* Computes curve coeffs.     */
+void    curvecoeff(EN_Project *pr, int,double,
+                   double *,double *);              /* Computes curve coeffs.     */
                              
 
-void    gpvcoeff(EN_Project *pr, int iLink);                    /* Computes GPV coeff.        */
-void    pbvcoeff(EN_Project *pr, int iLink);                    /* Computes PBV coeff.        */
-void    tcvcoeff(EN_Project *pr, int iLink);                    /* Computes TCV coeff.        */
-void    prvcoeff(EN_Project *pr, int iLink, int n1, int n2);            /* Computes PRV coeff.        */
-void    psvcoeff(EN_Project *pr, int iLink, int n1, int n2);            /* Computes PSV coeff.        */
-void    fcvcoeff(EN_Project *pr, int iLink, int n1, int n2);            /* Computes FCV coeff.        */
+void    gpvcoeff(EN_Project *pr, int iLink);        /* Computes GPV coeff.        */
+void    pbvcoeff(EN_Project *pr, int iLink);        /* Computes PBV coeff.        */
+void    tcvcoeff(EN_Project *pr, int iLink);        /* Computes TCV coeff.        */
+void    prvcoeff(EN_Project *pr, int iLink, int n1, int n2);  /* Computes PRV coeff.        */
+void    psvcoeff(EN_Project *pr, int iLink, int n1, int n2);  /* Computes PSV coeff.        */
+void    fcvcoeff(EN_Project *pr, int iLink, int n1, int n2);  /* Computes FCV coeff.        */
 void    emittercoeffs(EN_Project *pr);              /* Computes emitter coeffs.   */
-double  emitflowchange(EN_Project *pr, int);              /* Computes new emitter flow  */
+double  emitflowchange(EN_Project *pr, int);        /* Computes new emitter flow  */
 
 /* ----------- SMATRIX.C ---------------*/
 int     createsparse(EN_Project *pr);               /* Creates sparse matrix      */
 int     allocsparse(EN_Project *pr);                /* Allocates matrix memory    */
 void    freesparse(EN_Project *pr);                 /* Frees matrix memory        */
-int     buildlists(EN_Project *pr, int);                  /* Builds adjacency lists     */
-int     paralink(EN_Project *pr, int, int, int);          /* Checks for parallel links  */
+int     buildlists(EN_Project *pr, int);            /* Builds adjacency lists     */
+int     paralink(EN_Project *pr, int, int, int);    /* Checks for parallel links  */
 void    xparalinks(EN_Project *pr);                 /* Removes parallel links     */
 void    freelists(EN_Project *pr);                  /* Frees adjacency lists      */
 void    countdegree(EN_Project *pr);                /* Counts links at each node  */
 int     reordernodes(EN_Project *pr);               /* Finds a node re-ordering   */
-int     mindegree(solver_t *s, int, int);              /* Finds min. degree node     */
-int     growlist(EN_Project *pr, int);                    /* Augments adjacency list    */
-int     newlink(EN_Project *pr, Padjlist);                /* Adds fill-ins for a node   */
-int     linked(EN_Network *net, int, int);                 /* Checks if 2 nodes linked   */
-int     addlink(EN_Network *net, int, int, int);           /* Creates new fill-in        */
-int     storesparse(EN_Project *pr, int);                 /* Stores sparse matrix       */
-int     ordersparse(hydraulics_t *h, int);                 /* Orders matrix storage      */
-void    transpose(int,int *,int *,        /* Transposes sparse matrix   */
+int     mindegree(solver_t *s, int, int);           /* Finds min. degree node     */
+int     growlist(EN_Project *pr, int);              /* Augments adjacency list    */
+int     newlink(EN_Project *pr, Padjlist);          /* Adds fill-ins for a node   */
+int     linked(EN_Network *net, int, int);          /* Checks if 2 nodes linked   */
+int     addlink(EN_Network *net, int, int, int);    /* Creates new fill-in        */
+int     storesparse(EN_Project *pr, int);           /* Stores sparse matrix       */
+int     ordersparse(hydraulics_t *h, int);          /* Orders matrix storage      */
+void    transpose(int,int *,int *,                  /* Transposes sparse matrix   */
         int *,int *,int *,int *,int *);
-int     linsolve(solver_t *s, int);               /* via Cholesky factorization */
+int     linsolve(solver_t *s, int);                 /* Solves set of linear eqns. */
 
 /* ----------- QUALITY.C ---------------*/
 int     openqual(EN_Project *pr);                   /* Opens WQ solver system     */
 void    initqual(EN_Project *pr);                   /* Initializes WQ solver      */
-int     runqual(EN_Project *pr, long *);                  /* Gets current WQ results    */
-int     nextqual(EN_Project *pr, long *);                 /* Updates WQ by hyd.timestep */
-int     stepqual(EN_Project *pr, long *);                 /* Updates WQ by WQ time step */
+int     runqual(EN_Project *pr, long *);            /* Gets current WQ results    */
+int     nextqual(EN_Project *pr, long *);           /* Updates WQ by hyd.timestep */
+int     stepqual(EN_Project *pr, long *);           /* Updates WQ by WQ time step */
 int     closequal(EN_Project *pr);                  /* Closes WQ solver system    */
-int     gethyd(EN_Project *pr, long *, long *);           /* Gets next hyd. results     */
+int     gethyd(EN_Project *pr, long *, long *);     /* Gets next hyd. results     */
 char    setReactflag(EN_Project *pr);               /* Checks for reactive chem.  */
-void    transport(EN_Project *pr, long);                  /* Transports mass in network */
+void    transport(EN_Project *pr, long);            /* Transports mass in network */
 void    initsegs(EN_Project *pr);                   /* Initializes WQ segments    */
 void    reorientsegs(EN_Project *pr);               /* Re-orients WQ segments     */
-void    updatesegs(EN_Project *pr, long);                 /* Updates quality in segments*/
-void    removesegs(EN_Project *pr, int);                  /* Removes a WQ segment       */
-void    addseg(EN_Project *pr, int,double,double);        /* Adds a WQ segment to pipe  */
-void    accumulate(EN_Project *pr, long);                 /* Sums mass flow into node   */
-void    updatenodes(EN_Project *pr, long);                /* Updates WQ at nodes        */
-void    sourceinput(EN_Project *pr, long);                /* Computes source inputs     */
-void    release(EN_Project *pr, long);                    /* Releases mass from nodes   */
-void    updatetanks(EN_Project *pr, long);                /* Updates WQ in tanks        */
-void    updatesourcenodes(EN_Project *pr, long);          /* Updates WQ at source nodes */
-void    tankmix1(EN_Project *pr, int, long);              /* Complete mix tank model    */
-void    tankmix2(EN_Project *pr, int, long);              /* 2-compartment tank model   */
-void    tankmix3(EN_Project *pr, int, long);              /* FIFO tank model            */
-void    tankmix4(EN_Project *pr, int, long);              /* LIFO tank model            */
-double  sourcequal(EN_Project *pr, Psource);              /* Finds WQ input from source */
-double  avgqual(EN_Project *pr, int);                     /* Finds avg. quality in pipe */
+void    updatesegs(EN_Project *pr, long);           /* Updates quality in segments*/
+void    removesegs(EN_Project *pr, int);            /* Removes a WQ segment       */
+void    addseg(EN_Project *pr, int,double,double);  /* Adds a WQ segment to pipe  */
+void    accumulate(EN_Project *pr, long);           /* Sums mass flow into node   */
+void    updatenodes(EN_Project *pr, long);          /* Updates WQ at nodes        */
+void    sourceinput(EN_Project *pr, long);          /* Computes source inputs     */
+void    release(EN_Project *pr, long);              /* Releases mass from nodes   */
+void    updatetanks(EN_Project *pr, long);          /* Updates WQ in tanks        */
+void    updatesourcenodes(EN_Project *pr, long);    /* Updates WQ at source nodes */
+void    tankmix1(EN_Project *pr, int, long);        /* Complete mix tank model    */
+void    tankmix2(EN_Project *pr, int, long);        /* 2-compartment tank model   */
+void    tankmix3(EN_Project *pr, int, long);        /* FIFO tank model            */
+void    tankmix4(EN_Project *pr, int, long);        /* LIFO tank model            */
+double  sourcequal(EN_Project *pr, Psource);        /* Finds WQ input from source */
+double  avgqual(EN_Project *pr, int);               /* Finds avg. quality in pipe */
 void    ratecoeffs(EN_Project *pr);                 /* Finds wall react. coeffs.  */
-double  piperate(EN_Project *pr, int);                    /* Finds wall react. coeff.   */
-double  pipereact(EN_Project *pr, int,double,double,long);/* Reacts water in a pipe     */
-double  tankreact(EN_Project *pr, double,double,double,long); /* Reacts water in a tank     */
-double  bulkrate(EN_Project *pr, double,double,double);   /* Finds bulk reaction rate   */
-double  wallrate(EN_Project *pr, double,double,double,double);/* Finds wall reaction rate   */
+double  piperate(EN_Project *pr, int);              /* Finds wall react. coeff.   */
+double  pipereact(EN_Project *pr, int,double,
+                  double,long);                     /* Reacts water in a pipe     */
+double  tankreact(EN_Project *pr, double,double,
+                  double,long);                     /* Reacts water in a tank     */
+double  bulkrate(EN_Project *pr, double,double,
+                 double);                           /* Finds bulk reaction rate   */
+double  wallrate(EN_Project *pr, double,double,
+                 double,double);                    /* Finds wall reaction rate   */
 
 
 /* ------------ OUTPUT.C ---------------*/
 int     savenetdata(EN_Project *pr);                /* Saves basic data to file   */
-int     savehyd(EN_Project *pr, long *);                  /* Saves hydraulic solution   */
-int     savehydstep(EN_Project *pr, long *);              /* Saves hydraulic timestep   */
+int     savehyd(EN_Project *pr, long *);            /* Saves hydraulic solution   */
+int     savehydstep(EN_Project *pr, long *);        /* Saves hydraulic timestep   */
 int     saveenergy(EN_Project *pr);                 /* Saves energy usage         */
-int     readhyd(EN_Project *pr, long *);                  /* Reads hydraulics from file */
-int     readhydstep(FILE *hydFile, long *);              /* Reads time step from file  */
+int     readhyd(EN_Project *pr, long *);            /* Reads hydraulics from file */
+int     readhydstep(FILE *hydFile, long *);         /* Reads time step from file  */
 int     saveoutput(EN_Project *pr);                 /* Saves results to file      */
-int     nodeoutput(EN_Project *pr, int, REAL4 *, double); /* Saves node results to file */
-int     linkoutput(EN_Project *pr, int, REAL4 *, double); /* Saves link results to file */
+int     nodeoutput(EN_Project *pr, int, REAL4 *,
+                   double);                         /* Saves node results to file */
+int     linkoutput(EN_Project *pr, int, REAL4 *,
+                   double);                         /* Saves link results to file */
 int     savefinaloutput(EN_Project *pr);            /* Finishes saving output     */
-int     savetimestat(EN_Project *pr, REAL4 *, HdrType);      /* Saves time stats to file   */
-int     savenetreacts(EN_Project *pr, double, double,double, double);
-                          /* Saves react. rates to file */
+int     savetimestat(EN_Project *pr, REAL4 *,
+                     HdrType);                      /* Saves time stats to file   */
+int     savenetreacts(EN_Project *pr, double,
+                      double,double, double);       /* Saves react. rates to file */
 int     saveepilog(EN_Project *pr);                 /* Saves output file epilog   */
 
 
 /* ------------ INPFILE.C --------------*/
-int     saveinpfile(EN_Project *pr, char *);              /* Saves network to text file  */
+int     saveinpfile(EN_Project *pr, char *);        /* Saves network to text file  */
 
 #endif

src/hydraul.c

@@ -628,7 +628,7 @@ void  demands(EN_Project *pr)
    long k,p;
    double djunc, sum;
    Pdemand demand;
-  
+
   EN_Network *net = &pr->network;
   hydraulics_t *hyd = &pr->hydraulics;
   time_options_t *top = &pr->time_options;
@@ -680,6 +680,7 @@ void  demands(EN_Project *pr)
          setlinksetting(pr, i, net->Pattern[j].F[k], &hyd->LinkStatus[i], &hyd->LinkSetting[i]);
       }
    }
+
 }                        /* End of demands */
 
 

src/input1.c

@@ -40,8 +40,7 @@ AUTHOR:     L. Rossman
   --------------------- Module Global Variables  ----------------------
 */
 
-#define MAXITER                                                                \
-  200 /* Default max. # hydraulic iterations    */ 
+#define MAXITER 200 /* Default max. # hydraulic iterations    */ 
 #define HACC 0.001  /* Default hydraulics convergence ratio   */
 #define HTOL 0.0005 /* Default hydraulic head tolerance (ft)  */
 
@@ -62,8 +61,7 @@ AUTHOR:     L. Rossman
 #define RQTOL 1E-7  /* Default low flow resistance tolerance  */
 #define CHECKFREQ 2 /* Default status check frequency         */
 #define MAXCHECK 10 /* Default # iterations for status checks */
-#define DAMPLIMIT                                                              \
-  0 /* Default damping threshold              */ 
+#define DAMPLIMIT 0 /* Default damping threshold              */ 
 
 extern char *Fldname[]; /* Defined in enumstxt.h in EPANET.C      */
 extern char *RptFlowUnitsTxt[];

src/output.c

@@ -70,7 +70,8 @@ int savenetdata(EN_Project *pr)
     ibuf[0] = MAGICNUMBER;
 
     /*** CODEVERSION replaces VERSION ***/ 
-    ibuf[1] = CODEVERSION;                 
+    //ibuf[1] = CODEVERSION;                 
+    ibuf[1] = 20012;  // keep version at 2.00.12 so that GUI will run 
 
     ibuf[2] = net->Nnodes;
     ibuf[3] = net->Ntanks;

src/quality.c

@@ -161,6 +161,9 @@ void initqual(EN_Project *pr)
       net->Node[i].S->Smass = 0.0;
   }
 
+  qu->QTempVolumes = 
+      calloc(net->Ntanks,
+          sizeof(double)); // keep track of next tank volumes.
   qu->QTankVolumes =
       calloc(net->Ntanks,
              sizeof(double)); // keep track of previous step's tank volumes.
@@ -287,7 +290,7 @@ int nextqual(EN_Project *pr, long *tstep)
 {
   long hydstep; /* Hydraulic solution time step */
   int errcode = 0;
-  double *tankVolumes;
+  //double *tankVolumes = NULL;
   int i;
   EN_Network *net;
   hydraulics_t *hyd;
@@ -315,10 +318,10 @@ int nextqual(EN_Project *pr, long *tstep)
   // if we're operating in stepwise mode, capture the tank levels so we can
   // restore them later.
   if (hyd->OpenHflag) {
-    tankVolumes = calloc(net->Ntanks, sizeof(double));
+    //tankVolumes = calloc(net->Ntanks, sizeof(double));
     for (i = 1; i <= net->Ntanks; ++i) {
       if (net->Tank[i].A != 0) { // skip reservoirs
-        tankVolumes[i - 1] = net->Tank[i].V;
+        qu->QTempVolumes[i - 1] = net->Tank[i].V;
       }
     }
 
@@ -359,7 +362,7 @@ int nextqual(EN_Project *pr, long *tstep)
     for (i = 1; i <= net->Ntanks; i++) {
       if (net->Tank[i].A != 0) { // skip reservoirs again
         int n = net->Tank[i].Node;
-        net->Tank[i].V = tankVolumes[i - 1];
+        net->Tank[i].V = qu->QTempVolumes[i - 1];
         hyd->NodeHead[n] = tankgrade(pr, i, net->Tank[i].V);
       }
     }
@@ -370,7 +373,7 @@ int nextqual(EN_Project *pr, long *tstep)
       }
     }
 
-    free(tankVolumes);
+    //free(tankVolumes);
   }
 
   return (errcode);
@@ -448,6 +451,7 @@ int closequal(EN_Project *pr)
   free(qu->MassIn);
   free(qu->PipeRateCoeff);
   free(qu->TempQual);
+  free(qu->QTempVolumes);
   free(qu->QTankVolumes);
   free(qu->QLinkFlow);
   return (errcode);

src/types.h

@@ -542,6 +542,7 @@ typedef struct {
   Climit,    /// Limiting potential quality   
   *NodeQual, /// Node quality state
   *TempQual, /// General purpose array for water quality
+  *QTempVolumes,
   *QTankVolumes,
   *QLinkFlow,
   *PipeRateCoeff;
@@ -551,12 +552,12 @@ typedef struct {
   Qtime; /// Current quality time (sec)
   
   char      OutOfMemory;          /* Out of memory indicator                 */
-  alloc_handle_t *SegPool; // Memory pool for water quality segments   
+  alloc_handle_t *SegPool;        // Memory pool for water quality segments   
   
   Pseg      FreeSeg;              /* Pointer to unused segment               */
   Pseg      *FirstSeg,            /* First (downstream) segment in each pipe */
-  *LastSeg;             /* Last (upstream) segment in each pipe    */
-  FlowDirection      *FlowDir;             /* Flow direction for each pipe            */
+            *LastSeg;             /* Last (upstream) segment in each pipe    */
+  FlowDirection *FlowDir;         /* Flow direction for each pipe            */
   double    *VolIn;               /* Total volume inflow to node             */
   double    *MassIn;              /* Total mass inflow to node               */
   double    Sc;                   /* Schmidt Number                          */