Lew Rossman
@@ -14,12 +14,12 @@ This document describes the changes and updates that have been made in version 2
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- `EN_LEAK_AREA` and `EN_LEAK_EXPAN` can be used with the functions `EN_getlinkvalue` and `EN_setlinkvalue` to retrieve and assign values for a pipe's leak area and expansion properties.
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- `EN_LINK_LEAKAGE` can be used with `EN_getlinkvalue` to retrieve a pipe's leakage rate at a given point in time.
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- `EN_LEAKAGEFLOW` can be used with `EN_getnodevalue` to retrieve the leakage demand generated at a node from all its connecting pipes at a given point in time.
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- `EN_LEAKAGELOSS` can be used with `EN_getstatistic` to retrieve the the total leakage loss in the system at a given point in time as a percentage of total flow entering the system.
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- `EN_LEAKAGELOSS` can be used with `EN_getstatistic` to retrieve the total leakage loss in the system at a given point in time as a percentage of total flow entering the system.
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- Support has been added for reading the `[TAGS]` section of an EPANET input file. In addition:
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- A newly added `EN_settag` function will assign a Tag to a node or link.
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- A newly added `EN_gettag` function will retrieve a node or link's Tag.
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- The exisitng `EN_saveinpfile` will include saving all node and link tags to file.
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- The existing `EN_saveinpfile` will include saving all node and link tags to file.
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- A new Flow Balance Report has been added to end of a simulation run's Status Report that lists the various components of the system's total inflow and outflow over the simulation period. It also displays the ratio of outflow to inflow as a check on flow continuity.
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- A new type of valve, a Positional Control Valve (PCV), was added. It uses a valve characteristic curve to relate its loss coefficient to a percentage open setting (parameter - `EN_PCV`).
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@@ -220,7 +220,7 @@ Public Const EN_INITFLOW = 10 ' Re-initialize flow flag
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Public Const EN_SAVE_AND_INIT = 11
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Public Const EN_CONST_HP = 0 ' Constant horsepower pump curve
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Public Const EN_POWER_FUNC = 1 ' Power function pump cuve
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Public Const EN_POWER_FUNC = 1 ' Power function pump curve
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Public Const EN_CUSTOM = 2 ' User-defined custom pump curve
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Public Const EN_NOCURVE = 3 ' No pump curve
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@@ -18,7 +18,7 @@ set of thread safe API functions that allows one to run concurrent analyses on
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multiple EPANET projects can be found in the epanet2_2.h header file. The two
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APIs share the same function names and arguments with the difference being that
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the thread safe functions use the prefix "EN_" and include an extra argument that
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represents the EPANET project being analyzed. To avoid unneccesary repetition,
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represents the EPANET project being analyzed. To avoid unnecessary repetition,
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only the thread safe API functions have been documented. To see a description of
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a legacy style API function declared here please refer to its complementary named
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function in epanet2_2.h.
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@@ -754,7 +754,7 @@ typedef struct Project *EN_Project;
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int DLLEXPORT EN_getoption(EN_Project ph, int option, double *out_value);
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/**
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@brief Sets the value for an anlysis option.
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@brief Sets the value for an analysis option.
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@param ph an EPANET project handle.
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@param option a type of analysis option (see @ref EN_Option).
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@param value the new value assigned to the option.
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@@ -447,7 +447,7 @@ should be taken if the node or link being deleted appears in any simple or rule-
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controls or if a deleted node has any links connected to it.
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*/
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typedef enum {
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EN_UNCONDITIONAL = 0, //!< Delete all controls and connecing links
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EN_UNCONDITIONAL = 0, //!< Delete all controls and connecting links
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EN_CONDITIONAL = 1 //!< Cancel object deletion if it appears in controls or has connecting links
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} EN_ActionCodeType;
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22
src/epanet.c
22
src/epanet.c
@@ -1019,7 +1019,7 @@ int DLLEXPORT EN_getversion(int *version)
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int DLLEXPORT EN_geterror(int errcode, char *errmsg, int maxLen)
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/*----------------------------------------------------------------
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** Input: errcode = an error or warnng code
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||||
** Input: errcode = an error or warning code
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||||
** maxLen = maximum characters that errmsg can hold
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||||
** Output: errmsg = text of error/warning message
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||||
** Returns: error code
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||||
@@ -1283,7 +1283,7 @@ int DLLEXPORT EN_setoption(EN_Project p, int option, double value)
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// All other option values must be non-negative
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if (value < 0.0) return 213;
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// Process the speficied option
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// Process the specified option
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switch (option)
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{
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case EN_TRIALS:
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@@ -1920,7 +1920,7 @@ int DLLEXPORT EN_addnode(EN_Project p, const char *id, int nodeType, int *index)
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// Check for valid node type
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if (nodeType < EN_JUNCTION || nodeType > EN_TANK) return 251;
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// Grow node-related arrays to accomodate the new node
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// Grow node-related arrays to accommodate the new node
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size = (net->Nnodes + 2) * sizeof(Snode);
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net->Node = (Snode *)realloc(net->Node, size);
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size = (net->Nnodes + 2) * sizeof(double);
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@@ -3345,7 +3345,7 @@ int DLLEXPORT EN_addlink(EN_Project p, const char *id, int linkType,
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if (errcode) return errcode;
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}
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// Grow link-related arrays to accomodate the new link
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// Grow link-related arrays to accommodate the new link
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net->Nlinks++;
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p->parser.MaxLinks = net->Nlinks;
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n = net->Nlinks;
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@@ -3364,7 +3364,7 @@ int DLLEXPORT EN_addlink(EN_Project p, const char *id, int linkType,
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if (linkType <= PIPE) net->Npipes++;
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else if (linkType == PUMP)
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{
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// Grow pump array to accomodate the new link
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// Grow pump array to accommodate the new link
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net->Npumps++;
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size = (net->Npumps + 1) * sizeof(Spump);
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net->Pump = (Spump *)realloc(net->Pump, size);
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@@ -3386,7 +3386,7 @@ int DLLEXPORT EN_addlink(EN_Project p, const char *id, int linkType,
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}
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else
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{
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// Grow valve array to accomodate the new link
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// Grow valve array to accommodate the new link
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net->Nvalves++;
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size = (net->Nvalves + 1) * sizeof(Svalve);
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net->Valve = (Svalve *)realloc(net->Valve, size);
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@@ -5703,7 +5703,7 @@ int DLLEXPORT EN_setpremisestatus(EN_Project p, int ruleIndex, int premiseIndex,
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** Input: ruleIndex = rule index
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** premiseIndex = premise index
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** status = object status being tested against
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** (see EN_RuleStatus))
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** (see EN_RuleStatus)
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** Output: none
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** Returns: error code
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** Purpose: sets the status of an object being tested against
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@@ -5755,7 +5755,7 @@ int DLLEXPORT EN_getthenaction(EN_Project p, int ruleIndex, int actionIndex,
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** Input: ruleIndex = rule index
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** actionIndex = index of a rule's THEN actions
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** Output: linkIndex = index of link appearing in the action
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** status = status assigned to the link (see EN_RuleStatus))
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** status = status assigned to the link (see EN_RuleStatus)
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** setting = setting assigned to the link
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** Returns: error code
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** Purpose: retrieves the properties of a rule's THEN action
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@@ -5783,7 +5783,7 @@ int DLLEXPORT EN_setthenaction(EN_Project p, int ruleIndex, int actionIndex,
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** Input: ruleIndex = rule index
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** actionIndex = index of a rule's THEN actions
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** linkIndex = index of link appearing in the action
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** status = status assigned to the link (see EN_RuleStatus))
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** status = status assigned to the link (see EN_RuleStatus)
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** setting = setting assigned to the link
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** Returns: error code
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** Purpose: sets the properties of a rule's THEN action
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@@ -5811,7 +5811,7 @@ int DLLEXPORT EN_getelseaction(EN_Project p, int ruleIndex, int actionIndex,
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** Input: ruleIndex = rule index
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** actionIndex = index of a rule's ELSE actions
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** Output: linkIndex = index of link appearing in the action
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||||
** status = status assigned to the link (see EN_RuleStatus))
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** status = status assigned to the link (see EN_RuleStatus)
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** setting = setting assigned to the link
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** Returns: error code
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** Purpose: retrieves the properties of a rule's ELSE action
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||||
@@ -5839,7 +5839,7 @@ int DLLEXPORT EN_setelseaction(EN_Project p, int ruleIndex, int actionIndex,
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** Input: ruleIndex = rule index
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||||
** actionIndex = index of a rule's ELSE actions
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** linkIndex = index of link appearing in the action
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||||
** status = status assigned to the link (see EN_RuleStatus))
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||||
** status = status assigned to the link (see EN_RuleStatus)
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** setting = setting assigned to the link
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** Returns: error code
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** Purpose: sets the properties of a rule's ELSE action
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@@ -507,7 +507,7 @@ void emitterheadloss(Project *pr, int i, double *hloss, double *hgrad)
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** Input: i = node index
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** Output: hloss = head loss across node's emitter
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** hgrad = head loss gradient
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** Purpose: computes an emitters's head loss and gradient.
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** Purpose: computes an emitter's head loss and gradient.
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**-------------------------------------------------------------
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*/
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{
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@@ -178,7 +178,7 @@ int hydsolve(Project *pr, int *iter, double *relerr)
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nextcheck = *iter + hyd->CheckFreq;
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}
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// No convergence yet - see if its time for a periodic status
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// No convergence yet - see if it's time for a periodic status
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// check on pumps, CV's, and pipes connected to tank
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else if (*iter <= hyd->MaxCheck && *iter == nextcheck)
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{
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@@ -39,7 +39,7 @@ extern char *CurveTypeTxt[];
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void saveauxdata(Project *pr, FILE *f)
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/*
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------------------------------------------------------------
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||||
Writes auxilary data from original input file to new file.
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Writes auxiliary data from original input file to new file.
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||||
------------------------------------------------------------
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||||
*/
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{
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||||
@@ -84,7 +84,7 @@ void saveauxdata(Project *pr, FILE *f)
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||||
}
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||||
}
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||||
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// Write line of auxilary data to file
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||||
// Write line of auxiliary data to file
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||||
else
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||||
{
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||||
switch (sect)
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@@ -873,7 +873,7 @@ int saveinpfile(Project *pr, const char *fname)
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||||
}
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||||
}
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||||
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||||
// Save auxilary data to new input file
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||||
// Save auxiliary data to new input file
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||||
fprintf(f, "\n");
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saveauxdata(pr, f);
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||||
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@@ -141,7 +141,7 @@ void convert_pipe_to_node_leakage(Project *pr)
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** Input: none
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||||
** Output: none
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||||
** Purpose: converts pipe leakage parameters into node leakage
|
||||
** coefficents.
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||||
** coefficients.
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||||
**-------------------------------------------------------------
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||||
*/
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||||
{
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||||
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||||
@@ -122,7 +122,7 @@ int EXPORT_OUT_API ENR_close(ENR_Handle *p_handle)
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||||
**
|
||||
** Returns: Error code 0 on success, -1 on failure
|
||||
**
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||||
** Purpose: Close the output binary file, dellocate ENR_Handle struc
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||||
** Purpose: Close the output binary file, deallocate ENR_Handle struct
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||||
** and nullify pointer to ENR_Handle struct
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||||
**
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||||
** NOTE: ENR_close must be called before program end
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||||
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||||
@@ -588,7 +588,7 @@ int linkoutput(Project *pr, int j, REAL4 *x, double ucf)
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||||
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||||
case FRICTION: // Friction factor
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||||
// f = 2ghd/(Lu^2) where f = friction factor
|
||||
// u = velocity, g = grav. accel., h = head loss
|
||||
// u = velocity, g = grav. accel., h = head
|
||||
// loss, d = diam., & L = pipe length
|
||||
for (i = 1; i <= net->Nlinks; i++)
|
||||
{
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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];
|
||||
|
||||
|
||||
@@ -466,7 +466,7 @@ void writemassbalance(Project *pr)
|
||||
** Input: none
|
||||
** Output: none
|
||||
** Purpose: writes water quality mass balance ratio
|
||||
** (Outflow + Final Storage) / Inflow + Initial Storage)
|
||||
** (Outflow + Final Storage) / Inflow + Initial Storage
|
||||
** to report file.
|
||||
**-------------------------------------------------------------
|
||||
*/
|
||||
|
||||
@@ -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];
|
||||
|
||||
@@ -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
|
||||
**----------------------------------------------------------
|
||||
*/
|
||||
|
||||
Reference in New Issue
Block a user