ee335ab077
- Also adds new API function EN_deletecontrol - Updates and re-arranges entries in the VBA and VB.Net headers
227 lines
15 KiB
C
Executable File
227 lines
15 KiB
C
Executable File
/*
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**************************************************************************
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FUNCS.H -- Function Prototypes for EPANET Program
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VERSION: 2.00
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DATE: 5/8/00
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9/25/00
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10/25/00
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12/29/00
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3/1/01
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2/14/08 (2.00.12)
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AUTHOR: L. Rossman
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US EPA - NRMRL
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**************************************************************************
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*/
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/*****************************************************************/
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/* Most float arguments have been changed to double - 7/3/07 */
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/*****************************************************************/
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/* ------- EPANET.C --------------------*/
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/*
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** NOTE: The exportable functions that can be called
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** via the DLL are prototyped in TOOLKIT.H.
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*/
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#ifndef FUNCS_H
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#define FUNCS_H
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#include "types.h"
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void initpointers(EN_Project *pr); /* Initializes pointers */
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int allocdata(EN_Project *pr); /* Allocates memory */
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void freeTmplist(STmplist *); /* Frees items in linked list */
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void freeFloatlist(SFloatlist *); /* Frees list of floats */
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void freedata(EN_Project *pr); /* Frees allocated memory */
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int openfiles(EN_Project *pr, const char *,
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const char *,const char *); /* Opens input & report files */
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int openhydfile(EN_Project *pr); /* Opens hydraulics file */
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int openoutfile(EN_Project *pr); /* Opens binary output file */
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int strcomp(const char *, const char *); /* Compares two strings */
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char* getTmpName(EN_Project *p, char* fname); /* Gets temporary file name */
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double interp(int n, double x[], double y[],
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double xx); /* Interpolates a data curve */
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int findnode(EN_Network *n, char *); /* Finds node's index from ID */
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int findlink(EN_Network *n, char *); /* Finds link's index from ID */
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int findtank(EN_Network *n, int); /* Find tank index from node index */ // (AH)
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int findvalve(EN_Network *n, int); /* Find valve index from node index */ // (AH)
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int findpump(EN_Network *n, int); /* Find pump index from node index */ // (AH)
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char *geterrmsg(int errcode, char *msg); /* Gets text of error message */
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void errmsg(EN_Project *p, int); /* Reports program error */
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void writewin(void (*vp)(char *), char *); /* Passes text to calling app */
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/* ------- INPUT1.C --------------------*/
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int getdata(EN_Project *pr); /* Gets network data */
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void setdefaults(EN_Project *pr); /* Sets default values */
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void initreport(report_options_t *r); /* Initializes report options */
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void adjustdata(EN_Project *pr); /* Adjusts input data */
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int inittanks(EN_Project *pr); /* Initializes tank levels */
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void initunits(EN_Project *pr); /* Determines reporting units */
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void convertunits(EN_Project *pr); /* Converts data to std. units*/
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/* -------- INPUT2.C -------------------*/
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int netsize(EN_Project *pr); /* Determines network size */
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int readdata(EN_Project *pr); /* Reads in network data */
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int newline(EN_Project *pr, int, char *); /* Processes new line of data */
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int addnodeID(EN_Network *n, int, char *); /* Adds node ID to data base */
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int addlinkID(EN_Network *n, int, char *); /* Adds link ID to data base */
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int addpattern(parser_data_t *par, char *); /* Adds pattern to data base */
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int addcurve(parser_data_t *par, char *); /* Adds curve to data base */
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STmplist *findID(char *, STmplist *); /* Locates ID on linked list */
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int unlinked(EN_Project *pr); /* Checks for unlinked nodes */
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int getpumpparams(EN_Project *pr); /* Computes pump curve coeffs.*/
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int updatepumpparams(EN_Project *pr, int); // Updates pump curve coeffs.
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int getpatterns(EN_Project *pr); /* Gets pattern data from list*/
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int getcurves(EN_Project *pr); /* Gets curve data from list */
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int findmatch(char *, char *[]); /* Finds keyword in line */
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int match(const char *, const char *); /* Checks for word match */
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int gettokens(char *s, char** Tok, int maxToks,
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char *comment); /* Tokenizes input line */
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int getfloat(char *, double *); /* Converts string to double */
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double hour(char *, char *); /* Converts time to hours */
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int setreport(EN_Project *pr, char *); /* Processes reporting command*/
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void inperrmsg(EN_Project *pr, int,int,char *); /* Input error message */
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/* ---------- INPUT3.C -----------------*/
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int juncdata(EN_Project *pr); /* Processes junction data */
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int tankdata(EN_Project *pr); /* Processes tank data */
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int pipedata(EN_Project *pr); /* Processes pipe data */
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int pumpdata(EN_Project *pr); /* Processes pump data */
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int valvedata(EN_Project *pr); /* Processes valve data */
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int patterndata(EN_Project *pr); /* Processes pattern data */
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int curvedata(EN_Project *pr); /* Processes curve data */
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int coordata(EN_Project *pr); /* Processes coordinate data */
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int demanddata(EN_Project *pr); /* Processes demand data */
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int controldata(EN_Project *pr); /* Processes simple controls */
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int energydata(EN_Project *pr); /* Processes energy data */
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int sourcedata(EN_Project *pr); /* Processes source data */
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int emitterdata(EN_Project *pr); /* Processes emitter data */
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int qualdata(EN_Project *pr); /* Processes quality data */
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int reactdata(EN_Project *pr); /* Processes reaction data */
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int mixingdata(EN_Project *pr); /* Processes tank mixing data */
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int statusdata(EN_Project *pr); /* Processes link status data */
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int reportdata(EN_Project *pr); /* Processes report options */
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int timedata(EN_Project *pr); /* Processes time options */
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int optiondata(EN_Project *pr); /* Processes analysis options */
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int optionchoice(EN_Project *pr, int); /* Processes option choices */
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int optionvalue(EN_Project *pr, int); /* Processes option values */
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int getpumpcurve(EN_Project *pr, int); /* Constructs a pump curve */
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int powercurve(double, double, double, /* Coeffs. of power pump curve*/
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double, double, double *,
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double *, double *);
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int valvecheck(EN_Project *pr, int, int, int); /* Checks valve placement */
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void changestatus(EN_Network *net, int, StatType,
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double); /* Changes status of a link */
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/* -------------- RULES.C --------------*/
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void initrules(rules_t *rules); /* Initializes rule base */
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void addrule(parser_data_t *par, char *); /* Adds rule to rule base */
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int allocrules(EN_Project *pr); /* Allocates memory for rule */
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void adjustrules(EN_Project *pr, int, int); // Shifts object indices down
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void adjusttankrules(EN_Project *pr); // Shifts tank indices up
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int ruledata(EN_Project *pr); /* Processes rule input data */
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int checkrules(EN_Project *pr, long); /* Checks all rules */
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void freerules(EN_Project *pr); /* Frees rule base memory */
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int writeRuleinInp(EN_Project *pr, FILE *f, /* Writes rule to an INP file */
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int RuleIdx);
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/* ------------- REPORT.C --------------*/
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int writereport(EN_Project *pr); /* Writes formatted report */
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void writelogo(EN_Project *pr); /* Writes program logo */
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void writesummary(EN_Project *pr); /* Writes network summary */
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void writehydstat(EN_Project *pr, int,double); /* Writes hydraulic status */
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void writeenergy(EN_Project *pr); /* Writes energy usage */
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int writeresults(EN_Project *pr); /* Writes node/link results */
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void writeheader(EN_Project *pr, int,int); /* Writes heading on report */
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void writeline(EN_Project *pr, char *); /* Writes line to report file */
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void writerelerr(EN_Project *pr, int, double); /* Writes convergence error */
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void writestatchange(EN_Project *pr, int,char,char); /* Writes link status change */
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void writecontrolaction(EN_Project *pr, int, int); /* Writes control action taken*/
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void writeruleaction(EN_Project *pr, int, char *); /* Writes rule action taken */
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int writehydwarn(EN_Project *pr, int,double); /* Writes hydraulic warnings */
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void writehyderr(EN_Project *pr, int); /* Writes hydraulic error msg.*/
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void writemassbalance(EN_Project *pr); // Writes mass balance ratio
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int disconnected(EN_Project *pr); /* Checks for disconnections */
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void marknodes(EN_Project *pr, int, int *, char *); /* Identifies connected nodes */
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void getclosedlink(EN_Project *pr, int, char *); /* Finds a disconnecting link */
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void writelimits(EN_Project *pr, int,int); /* Writes reporting limits */
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int checklimits(report_options_t *rep, double *,
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int,int); /* Checks variable limits */
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void writetime(EN_Project *pr, char *); /* Writes current clock time */
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char *clocktime(char *, long); /* Converts time to hrs:min */
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char *fillstr(char *, char, int); /* Fills string with character*/
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int getnodetype(EN_Network *net, int); /* Determines node type */
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/* --------- HYDRAUL.C -----------------*/
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int openhyd(EN_Project *pr); /* Opens hydraulics solver */
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void inithyd(EN_Project *pr, int initFlags); /* Re-sets initial conditions */
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int runhyd(EN_Project *pr, long *); /* Solves 1-period hydraulics */
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int nexthyd(EN_Project *pr, long *); /* Moves to next time period */
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void closehyd(EN_Project *pr); /* Closes hydraulics solver */
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void setlinkstatus(EN_Project *pr, int, char,
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StatType *, double *); /* Sets link status */
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void setlinksetting(EN_Project *pr, int, double,
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StatType *, double *); /* Sets pump/valve setting */
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int tanktimestep(EN_Project *pr, long *); /* Time till tanks fill/drain */
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void getenergy(EN_Project *pr, int, double *,
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double *); /* Computes link energy use */
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double tankvolume(EN_Project *pr, int,double); /* Finds tank vol. from grade */
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double tankgrade(EN_Project *pr, int,double); /* Finds tank grade from vol. */
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/* ----------- HYDSOLVER.C - ----------*/
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int hydsolve(EN_Project *pr, int *,double *); /* Solves network equations */
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/* ----------- HYDCOEFFS.C --------------*/
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void resistcoeff(EN_Project *pr, int k); /* Finds pipe flow resistance */
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void headlosscoeffs(EN_Project *pr); // Finds link head loss coeffs.
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void matrixcoeffs(EN_Project *pr); /* Finds hyd. matrix coeffs. */
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void emitheadloss(EN_Project *pr, int, // Finds emitter head loss
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double *, double *);
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double demandflowchange(EN_Project *pr, int, // Change in demand outflow
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double, double);
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void demandparams(EN_Project *pr, double *, // PDA function parameters
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double *);
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/* ----------- SMATRIX.C ---------------*/
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int createsparse(EN_Project *pr); /* Creates sparse matrix */
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void freesparse(EN_Project *pr); /* Frees matrix memory */
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int linsolve(EN_Project *pr, int); /* Solves set of linear eqns. */
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/* ----------- QUALITY.C ---------------*/
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int openqual(EN_Project *pr); /* Opens WQ solver system */
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int initqual(EN_Project *pr); /* Initializes WQ solver */
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int runqual(EN_Project *pr, long *); /* Gets current WQ results */
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int nextqual(EN_Project *pr, long *); /* Updates WQ by hyd.timestep */
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int stepqual(EN_Project *pr, long *); /* Updates WQ by WQ time step */
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int closequal(EN_Project *pr); /* Closes WQ solver system */
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double avgqual(EN_Project *pr, int); /* Finds avg. quality in pipe */
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/* ------------ OUTPUT.C ---------------*/
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int savenetdata(EN_Project *pr); /* Saves basic data to file */
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int savehyd(EN_Project *pr, long *); /* Saves hydraulic solution */
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int savehydstep(EN_Project *pr, long *); /* Saves hydraulic timestep */
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int saveenergy(EN_Project *pr); /* Saves energy usage */
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int readhyd(EN_Project *pr, long *); /* Reads hydraulics from file */
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int readhydstep(EN_Project *pr, long *); /* Reads time step from file */
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int saveoutput(EN_Project *pr); /* Saves results to file */
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int nodeoutput(EN_Project *pr, int, REAL4 *,
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double); /* Saves node results to file */
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int linkoutput(EN_Project *pr, int, REAL4 *,
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double); /* Saves link results to file */
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int savefinaloutput(EN_Project *pr); /* Finishes saving output */
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int savetimestat(EN_Project *pr, REAL4 *,
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HdrType); /* Saves time stats to file */
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int savenetreacts(EN_Project *pr, double,
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double,double, double); /* Saves react. rates to file */
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int saveepilog(EN_Project *pr); /* Saves output file epilog */
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/* ------------ INPFILE.C --------------*/
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int saveinpfile(EN_Project *pr, const char *); /* Saves network to text file */
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#endif
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