fix typos in code comments

remove duplicate words from a comment

src/epanet.c

@@ -1019,7 +1019,7 @@ int DLLEXPORT EN_getversion(int *version)
 
 int DLLEXPORT EN_geterror(int errcode, char *errmsg, int maxLen)
 /*----------------------------------------------------------------
-**  Input:   errcode = an error or warnng code
+**  Input:   errcode = an error or warning code
 **           maxLen = maximum characters that errmsg can hold
 **  Output:  errmsg = text of error/warning message
 **  Returns: error code
@@ -1283,7 +1283,7 @@ int DLLEXPORT EN_setoption(EN_Project p, int option, double value)
     // All other option values must be non-negative
     if (value < 0.0) return 213;
 
-    // Process the speficied option
+    // Process the specified option
     switch (option)
     {
     case EN_TRIALS:
@@ -1920,7 +1920,7 @@ int DLLEXPORT EN_addnode(EN_Project p, const char *id, int nodeType, int *index)
     // Check for valid node type
     if (nodeType < EN_JUNCTION || nodeType > EN_TANK) return 251;
 
-    // Grow node-related arrays to accomodate the new node
+    // Grow node-related arrays to accommodate the new node
     size = (net->Nnodes + 2) * sizeof(Snode);
     net->Node = (Snode *)realloc(net->Node, size);
     size = (net->Nnodes + 2) * sizeof(double);
@@ -3345,7 +3345,7 @@ int DLLEXPORT EN_addlink(EN_Project p, const char *id, int linkType,
         if (errcode) return errcode;
     }
 
-    // Grow link-related arrays to accomodate the new link
+    // Grow link-related arrays to accommodate the new link
     net->Nlinks++;
     p->parser.MaxLinks = net->Nlinks;
     n = net->Nlinks;
@@ -3364,7 +3364,7 @@ int DLLEXPORT EN_addlink(EN_Project p, const char *id, int linkType,
     if (linkType <= PIPE) net->Npipes++;
     else if (linkType == PUMP)
     {
-        // Grow pump array to accomodate the new link
+        // Grow pump array to accommodate the new link
         net->Npumps++;
         size = (net->Npumps + 1) * sizeof(Spump);
         net->Pump = (Spump *)realloc(net->Pump, size);
@@ -3386,7 +3386,7 @@ int DLLEXPORT EN_addlink(EN_Project p, const char *id, int linkType,
     }
     else
     {
-        // Grow valve array to accomodate the new link
+        // Grow valve array to accommodate the new link
         net->Nvalves++;
         size = (net->Nvalves + 1) * sizeof(Svalve);
         net->Valve = (Svalve *)realloc(net->Valve, size);

src/hydcoeffs.c

@@ -507,7 +507,7 @@ void emitterheadloss(Project *pr, int i, double *hloss, double *hgrad)
 **   Input:   i = node index
 **   Output:  hloss = head loss across node's emitter
 **            hgrad = head loss gradient
-**   Purpose: computes an emitters's head loss and gradient.
+**   Purpose: computes an emitter's head loss and gradient.
 **-------------------------------------------------------------
 */
 {

src/hydsolver.c

@@ -178,7 +178,7 @@ int  hydsolve(Project *pr, int *iter, double *relerr)
             nextcheck = *iter + hyd->CheckFreq;
         }
 
-        // No convergence yet - see if its time for a periodic status
+        // No convergence yet - see if it's time for a periodic status
         // check  on pumps, CV's, and pipes connected to tank
         else if (*iter <= hyd->MaxCheck && *iter == nextcheck)
         {

src/inpfile.c

@@ -39,7 +39,7 @@ extern char *CurveTypeTxt[];
 void saveauxdata(Project *pr, FILE *f)
 /*
 ------------------------------------------------------------
-  Writes auxilary data from original input file to new file.
+  Writes auxiliary data from original input file to new file.
 ------------------------------------------------------------
 */
 {
@@ -84,7 +84,7 @@ void saveauxdata(Project *pr, FILE *f)
             }
         }
 
-        // Write line of auxilary data to file
+        // Write line of auxiliary data to file
         else
         {
             switch (sect)
@@ -873,7 +873,7 @@ int saveinpfile(Project *pr, const char *fname)
         }
     }
 
-    // Save auxilary data to new input file
+    // Save auxiliary data to new input file
     fprintf(f, "\n");
     saveauxdata(pr, f);
 

src/leakage.c

@@ -141,7 +141,7 @@ void convert_pipe_to_node_leakage(Project *pr)
 **   Input:   none
 **   Output:  none
 **   Purpose: converts pipe leakage parameters into node leakage
-**            coefficents.
+**            coefficients.
 **-------------------------------------------------------------
 */
 {

src/outfile/src/epanet_output.c

@@ -122,7 +122,7 @@ int EXPORT_OUT_API ENR_close(ENR_Handle *p_handle)
  **
  **  Returns:  Error code 0 on success, -1 on failure
  **
- **  Purpose:  Close the output binary file, dellocate ENR_Handle struc
+ **  Purpose:  Close the output binary file, deallocate ENR_Handle struct
  **            and nullify pointer to ENR_Handle struct
  **
  **  NOTE: ENR_close must be called before program end
@@ -161,7 +161,7 @@ int EXPORT_OUT_API ENR_open(ENR_Handle p_handle, const char* path)
  **  Returns:  warning / error code
  **  Purpose:  Opens the output binary file and reads prologue and epilogue
  **
- **  NOTE: ENR_init must be called before anyother ENR_* functions
+ **  NOTE: ENR_init must be called before any other ENR_* functions
  **-------------------------------------------------------------------------
  */
 {

src/output.c

@@ -588,8 +588,8 @@ int linkoutput(Project *pr, int j, REAL4 *x, double ucf)
 
       case FRICTION:  // Friction factor
         // f = 2ghd/(Lu^2) where f = friction factor
-        // u = velocity, g = grav. accel., h = head loss
-        //loss, d = diam., & L = pipe length
+        // u = velocity, g = grav. accel., h = head
+        // loss, d = diam., & L = pipe length
         for (i = 1; i <= net->Nlinks; i++)
         {
             if (net->Link[i].Type <= PIPE && ABS(hyd->LinkFlow[i]) > TINY)

src/qualreact.c

@@ -232,7 +232,7 @@ double piperate(Project *pr, int k)
     }
 
     // Compute Reynolds No.
-    // Flow rate made consistent with how its saved to hydraulics file
+    // Flow rate made consistent with how it's saved to hydraulics file
     q = (hyd->LinkStatus[k] <= CLOSED) ? 0.0 : hyd->LinkFlow[k];
     a = PI * d * d / 4.0;         // pipe area
     u = fabs(q) / a;              // flow velocity
@@ -772,7 +772,7 @@ void tankmix4(Project *pr, int i, double vin, double win, double vnet)
             vsum += vseg;
             wsum += (seg->c) * vseg;
 
-            // ... update remiaing volume to remove
+            // ... update remaining volume to remove
             vnet -= vseg;
 
             // ... if no more volume left in current segment

src/qualroute.c

@@ -247,7 +247,7 @@ double  findnodequal(Project *pr, int n, double volin,
         return qual->NodeQual[n];
     }
 
-    // Find quality contribued by any external chemical source
+    // Find quality contributed by any external chemical source
     else qual->SourceQual = findsourcequal(pr, n, volout, tstep);
     if (qual->SourceQual == 0.0) return qual->NodeQual[n];
 

src/smatrix.c

@@ -651,7 +651,7 @@ int  sortsparse(Smatrix *sm, int n)
 /*
 **--------------------------------------------------------------
 ** Input:   n = number of rows in solution matrix
-** Output:  returns eror code
+** Output:  returns error code
 ** Purpose: puts row indexes in ascending order in NZSUB
 **--------------------------------------------------------------
 */
@@ -834,7 +834,7 @@ int  linsolve(Smatrix *sm, int n)
       }
    }      // next j
 
-   // Foward substitution
+   // Forward substitution
    for (j = 1; j <= n; j++)
    {
       bj = B[j]/Aii[j];

src/validate.c

@@ -162,7 +162,7 @@ int powerfuncpump(double h0, double h1, double h2, double q1, double q2,
 **           q1 = design flow
 **           q2 = max. flow
 **  Output:  *a, *b, *c = pump curve coeffs. (H = a-bQ^c),
-**           Returns 1 if sucessful, 0 otherwise.
+**           Returns 1 if successful, 0 otherwise.
 **  Purpose: computes coeffs. for a power function pump curve
 **----------------------------------------------------------
 */