The EPANET-Matlab Toolkit
is an open-source software, originally developed by the KIOS Research and Innovation Center of Excellence, University of Cyprus which operates within the Matlab environment, for providing a programming interface for the latest version of EPANET, a hydraulic and quality modeling software created by the US EPA, with Matlab, a high-level technical computing software. The goal of the EPANET Matlab Toolkit is to serve as a common programming framework for research and development in the growing field of smart water networks.
The EPANET-Matlab Toolkit
features easy to use commands/wrappers for viewing, modifying, simulating and plotting results produced by the EPANET libraries.
For support, please use the OWA community forum : http://community.wateranalytics.org/
EPyT: An EPANET-Python Toolkit for Smart Water Network Simulations
We have prepared a tutorial as part of the CCWI-WDSA 2022 conference. You can find the files in the tutorial
folder at the following GitHub repository.
https://help.codeocean.com/en/articles/1110985-installing-user-provided-matlab-toolboxes
#!/usr/bin/env bash
set -e
curl -L https://github.com/OpenWaterAnalytics/EPANET-Matlab-Toolkit/archive/v2.2.2.tar.gz | tar xz
cd EPANET-Matlab-Toolkit-2.2.2
cd epanet_matlab_toolkit
mv ./glnx/libepanet2.so libepanet.so
matlab -nodisplay -r "addpath(genpath('$PWD')); savepath"
- How to cite
- Requirements
- How to install necessary compilers
- How to use the Toolkit
- How to fix/report bugs
- Licenses
- Contributors
- List of Matlab Class Functions
- List of EPANET 2.1 Functions Supported
- List of EPANET 2.012 Functions Supported
- List of EPANET 2.2 Functions Supported
D.G. Eliades, M. Kyriakou, S. Vrachimis and M.M. Polycarpou, "EPANET-MATLAB Toolkit: An Open-Source Software for Interfacing EPANET with MATLAB", in Proc. 14th International Conference on Computing and Control for the Water Industry (CCWI), The Netherlands, Nov 2016, p.8. (doi:10.5281/zenodo.831493)
@INPROCEEDINGS{Eliades2016,
author={Eliades, Demetrios G. and Kyriakou, Marios and Vrachimis, Stelios and Polycarpou, Marios M.},
title={EPANET-MATLAB Toolkit: An Open-Source Software for Interfacing EPANET with MATLAB},
booktitle={Proc. 14th International Conference on Computing and Control for the Water Industry (CCWI)},
year={2016},
pages={8},
address = {The Netherlands},
month={Nov},
DOI={10.5281/zenodo.831493}}
In order to use the EPANET-MATLAB-Toolkit the MinGW-w64 compiler must be install:
In case you have a version of matlab older than 2015b install the Windows SDK compiler :
Detailed examples on how to use the toolkit can be found in the publication of the Toolkit , together with the code. A presentation of its use is also provided here.
To start, you need to download the folder from GitHub (e.g., Download ZIP
), set the run path in Matlab within the saved folder, and run RunTests.m
. This will execute all the commands which have been implemented in the Class.
Minimum Example:
d=epanet('Net1.inp')
d.getNodeCount
d.getNodeElevations
Help Functions:
help d.plot
To fix a bug Fork
the EPANET-Matlab Toolkit
, Edit
the code and make the appropriate change, and then Pull
it so that we evaluate it.
Keep in mind that some bugs may exist in the EPANET
libraries, in case you are not receiving the expected results.
EPANET
: Public DomainEPANET-MSX
: GNU Lesser General Public LicenseEPANET-Matlab Toolkit
: EUPL
- Marios Kyriakou, KIOS Research Center for Intelligent Systems and Networks, University of Cyprus
- Demetrios Eliades, KIOS Research Center for Intelligent Systems and Networks, University of Cyprus
- Stelios Vrachimis, KIOS Research Center for Intelligent Systems and Networks, University of Cyprus
The EPANET-Matlab Toolkit
is based/inspired on the EPANET-Matlab Toolkit as well as the OpenWaterAnalytics EPANET-Matlab Wrappers
Function | Description |
---|---|
epanet | Load Input file and open the EPANET Toolkit system |
unload | Unload library and close the EPANET Toolkit system |
loadEPANETFile | Re-Load EPANET file - parfor |
loadMSXEPANETFile | Re-Load EPANET MSX file - parfor |
loadlibrary | Load the EPANET library - parfor |
loadMSXlibrary | Load the EPANET MSX library - parfor |
appShiftNetwor | Shifts the network in x and y directions |
appRotateNetwork | Rotates the network by theta degrees counter-clockwise using as pivot a specific node |
createProject | Creates an epanet project |
deleteProject | Deletes an epanet project |
getError | Returns the description of an error code |
getAdjacencyMatrix | Compute the adjacency matrix (connectivity graph) considering the flows, using mean flow |
getComputedAnalysisTimeSeries | Computed Hydralic and Quality Time Series |
getComputedHydraulicTimeSeries | Computed Hydraulic Time Series |
getComputedQualityTimeSeries | Computed Quality Time Series |
getComputedTimeSeries | Computed Hydraulic & Quality Time Series using the bimary file who created from executable |
getComputedTimeSeries_ENepanet | Computed Hydraulic & Quality Time Series via ENepanet binary file |
getConnectivityMatrix | Return connectivity matrix of the network |
getCounts | Retrieves the number of network components |
getControlRulesCount | Retrieves the number of control rules |
getControls | Retrieves the controls |
getCurveCount | Retrieves the number of curves |
getCurveIndex | Retrieves index of curve with specific ID |
getCurveLengths | Retrieves number of points in a curve |
getCurveNameID | Retrieves curve id |
getCurveType | Retrieves the curve-type (VOLUME, PUMP, EFFICIENCY, HEADLOSS, GENERAL) |
getCurveTypeIndex | Retrieves the curve-type index for all curves |
getCurveValue | Retrieves (x,y) values of specific curve index |
getCurveXY | Retrieves (x,y) values of all curves |
getDemandModel | Retrieves the type of demand model in use and its parameters |
getEN_functionsImpemented | Retrieves the epanet EN_ functions that have been developed |
getENfunctionsImpemented | Retrieves the epanet functions that have been developed |
getFlowDirections | Compute the adjacency matrix (connectivity graph) considering the flows, at different time steps or the mean flow |
getFlowUnits | Retrieves the units used to express all flow rates |
getGraph | Retrieves the graph of the current epanet network |
getLibFunctions | Retrieves the functions of DLL |
getLinkActualQuality | Current computed link quality (read only) |
getLinkBulkReactionCoeff | Bulk chemical reaction coefficient |
getLinkComment | Retrieves the comment string assigned to the link object |
getLinkCount | Retrieves the number of links |
getLinkDiameter | Retrieves the value of all link diameters |
getLinkEnergy | Current computed pump energy usage (read only) |
getLinkFlows | Current computed flow rate (read only) |
getLinkHeadloss | Current computed head loss (read only) |
getLinkIndex | Retrieves the indices of all links, or the indices of an ID set of links |
getLinkInitialSetting | Retrieves the value of all link roughness for pipes or initial speed for pumps or initial setting for valves |
getLinkInitialStatus | Retrieves the value of all link initial status |
getLinkLength | Retrieves the value of all link lengths |
getLinkMinorLossCoeff | Retrieves the value of all link minor loss coefficients |
getLinkNameID | Retrieves the ID label(s) of all links, or the IDs of an index set of links |
getLinkNodesIndex-getNodesConnectingLinksIndex | Retrieves the indexes of the from/to nodes of all links |
getLinkPipeCount | Retrieves the number of pipes |
getLinkPipeIndex | Retrieves the indices of pipes |
getLinkPipeNameID | Retrieves the pipe IDs |
getLinkPumpCount | Retrieves the number of pumps |
getLinkPumpEfficiency | Retrieves the value of all computed efficiency |
getLinkPumpHeadCurveIndex | Retrieves index of a head curve for specific link index |
getLinkPumpIndex | Retrieves the indices of pumps |
getLinkPumpNameID | Retrieves the pump IDs |
getLinkPumpPatternIndex | Pump speed time pattern index |
getLinkPumpPatternNameID | Retrieves the pump pattern IDs |
getLinkPumpPower | Pump constant power rating |
getLinkPumpHCurve | Pump head v. flow curve index |
getLinkPumpECurve | Pump efficiency v. flow curve index |
getLinkPumpECost | Pump average energy price |
getLinkPumpEPat | Pump energy price time pattern index |
getLinkPumpType | Retrieves the type of a pump for specific link index |
getLinkPumpTypeCode | Retrieves the type code of a pump for specific link index |
getLinkPumpState | Current computed pump state (read only) (see @ref EN_PumpStateType) |
getLinkPumpSwitches | Calculates the number of pump switches |
getLinkQuality | Retrieves the value of link quality |
getLinkResultIndex | Retrieves the order in which a link's results were saved to an output file. (EPANET Version 2.2) |
getLinkRoughnessCoeff | Retrieves the value of all link roughness |
getLinkSettings | Retrieves the value of all computed link roughness for pipes or actual speed for pumps or actual setting for valves |
getLinkStatus | Current link status (see @ref EN_LinkStatusType) |
getLinkType | Retrieves the link-type for all links |
getLinkTypeIndex | Retrieves the link-type code for all links |
getLinkValveCount | Retrieves the number of valves |
getLinkValveIndex | Retrieves the indices of valves |
getLinkValveNameID | Retrieves the valve IDs |
getLinkVelocity | Current computed flow velocity (read only) |
getLinkVertices | Retrieves the coordinate's of a vertex point assigned to a link. |
getLinkVerticesCount | Retrieves the number of internal vertex points assigned to a link |
getLinkVolumes | Get link volumes |
getLinkWallReactionCoeff | Pipe wall chemical reaction coefficient |
getNodeActualDemand | Retrieves the computed value of all actual demands |
getNodeActualDemandSensingNodes | Retrieves the computed demand values at some sensing nodes |
getNodeActualQuality | Retrieves the computed values of the actual quality for all nodes |
getNodeActualQualitySensingNodes | Retrieves the computed quality values at some sensing nodes |
getNodeBaseDemands | Retrieves the value of all node base demands |
getNodeComment | Retrieves the comment string assigned to the node object |
getNodeCoordinates | Retrieves coordinate x, y, and x, y vertices for a node |
getNodeCount | Retrieves the number of nodes |
getNodePatternIndex | Retrieves the value of all node pattern indices |
getNodeDemandDeficit | Retrieves the amount that full demand is reduced under PDA. (EPANET Version 2.2) |
getNodeDemandPatternIndex | Retrieves the value of all node demand pattern indices |
getNodeDemandPatternNameID | Retrieves the value of all node demand pattern IDs |
getNodeElevations | Retrieves the value of all node elevations |
getNodeEmitterCoeff | Retrieves the value of all node emmitter coefficients |
getNodeHydaulicHead | Retrieves the computed values of all hydraulic heads |
getNodeIndex | Retrieves the indices of all nodes or some nodes with a specified ID |
getNodeInitialQuality | Retrieves the value of all node initial quality |
getNodeJunctionActualDemand | Retrieves the computed value of all actual demands for junctions |
getNodeJunctionBaseDemands | Retrieves the value of all junction base demands |
getNodeJunctionCount | Retrieves the number of junctions |
getNodeJunctionDemandName | Gets the name of a node's demand category |
getNodeJunctionIndex | Retrieves the junctions indices |
getNodeJunctionNameID | Retrieves the junctions IDs |
getNodeJunctionDemandIndex | Retrieves the demand index of the junctions. (EPANET Version 2.2) |
getNodeLinks | Retrieves the links which a specific node is connected to |
getNodeMassFlowRate | Retrieves the computed mass flow rates per minute of chemical sources |
getNodeNameID | Retrieves the ID label of all nodes or some nodes with a specified index |
getNodeDemandCategoriesNumber | Retrieves the number of demand categories for a node |
getNodePressure | Retrieves the computed values of all node pressures |
getNodeReservoirCount | Retrieves the number of reservoirs |
getNodeReservoirIndex | Retrieves the indices of reservoirs |
getNodeReservoirNameID | Retrieves the reservoirs IDs |
getNodeResultIndex | Retrieves the order in which a node's results were saved to an output file. (EPANET Version 2.2) |
getNodeSourcePatternIndex | Retrieves the value of all node source pattern index |
getNodeSourceQuality | Retrieves the value of all nodes source quality |
getNodeSourceType | Retrieves the value of all node source type |
getNodeTankData | Retrieves a group of properties for a tank. (EPANET Version 2.2) |
getNodeTankBulkReactionCoeff | Retrieves the tank bulk rate coefficient |
getNodeTankCanOverFlow | Retrieves the tank can overflow (= 1) or not (= 0) |
getNodeTankCount | Retrieves the number of tanks |
getNodeTankDiameter | Retrieves the tank diameters |
getNodeTankIndex | Retrieves the indices of tanks |
getNodeTankInitialLevel | Retrieves the value of all tank initial water levels |
getNodeTankInitialWaterVolume | Retrieves the tank initial volume |
getNodeTankMaximumWaterVolume | Retrieves maximum water volume |
getNodeTankMaximumWaterLevel | Retrieves the tank maximum water level |
getNodeTankMixingFraction | Retrieves the tank Fraction of total volume occupied by the inlet/outlet zone in a 2-compartment tank |
getNodeTankMinimumWaterLevel | Retrieves the tank minimum water level |
getNodeTankMinimumWaterVolume | Retrieves the tank minimum volume |
getNodeTankMixZoneVolume | Retrieves the tank mixing zone volume |
getNodeTankMixingModelCode | Retrieves the tank mixing model code |
getNodeTankMixingModelType | Retrieves the tank mixing model type (mix1, mix2, fifo, lifo) |
getNodeTankNameID | Retrieves the tanks IDs |
getNodeTankReservoirCount | Retrieves the number of tanks |
getNodeTankVolume | Retrieves the tank volume |
getNodeTankVolumeCurveIndex | Retrieves the tank volume curve index |
getNodeType | Retrieves the node-type for all nodes |
getNodeTypeIndex | Retrieves the node code-index for all nodes |
getNodesConnectingLinksID | Retrieves the id of the from/to nodes of all links |
getOptionsAccuracyValue | Retrieve the analysis convergence criterion (0.001) |
getOptionsDemandCharge | Retrieve energy price pattern |
getOptionsSpecificGravity | Retrieves the specific gravity (EPANET Version 2.2) |
getOptionsSpecificViscosity | Retrieves the specific viscosity (EPANET Version 2.2) |
getOptionsExtraTrials | Retrieves the extra trials allowed if hydraulics don't converge (EPANET Version 2.2) |
getOptionsCheckFrequency | Retrieves the frequency of hydraulic status checks (EPANET Version 2.2) |
getOptionsMaximumCheck | Retrieves the maximum trials for status checking. (EPANET Version 2.2) |
getOptionsEmitterExponent | Retrieve power exponent for the emmitters (0.5) |
getOptionsFlowChange | Retrieve flow change |
getOptionsGlobalEffic | Retrieve global efficiency pumps |
getOptionsGlobalPrice | Retrieve global average energy price per kW-Hour |
getOptionsGlobalPattern | Retrieve global pattern |
getOptionsHeadError | Retrieve the head error |
getOptionsHeadLossFormula | Retrieve headloss formula code (Hazen-Williams, Darcy-Weisbach or Chezy-Manning) |
getOptionsMaxTrials | Retrieve maximum number of analysis trials |
getOptionsPatternDemandMultiplier | Retrieve the demand multiplier (x1) |
getOptionsQualityTolerance | Retrieve the water quality analysis tolerance |
getOptionsDampLimit | Retrieves the accuracy level where solution damping begins. (EPANET Version 2.2) |
getOptionsSpecificDiffusivity | Retrieves the specific diffusivity (relative to chlorine at 20 deg C). (EPANET Version 2.2) |
getOptionsPipeBulkReactionOrder | Retrieves the bulk water reaction order for pipes. (EPANET Version 2.2) |
getOptionsPipeWallReactionOrder | Retrieves the wall reaction order for pipes (either 0 or 1). (EPANET Version 2.2) |
getOptionsTankBulkReactionOrder | Retrieves the bulk water reaction order for tanks. (EPANET Version 2.2) |
getOptionsLimitingConcentration | Retrieves the limiting concentration for growth reactions. (EPANET Version 2.2) |
getPattern | Retrieves the multiplier factor for all patterns and all times |
getPatternAveragePatternValue | Retrieves the average value of a pattern |
getPatternComment | Retrieves the comment string assigned to the pattern object |
getPatternCount | Retrieves the number of patterns |
getPatternIndex | Retrieves the index of all or some time patterns IDs |
getPatternLengths | Retrieves the number of time periods in all or some patterns |
getPatternNameID | Retrieves the patterns IDs |
getPatternValue | Retrieves the multiplier factor for a certain pattern and time |
getQualityCode | Retrieves the code of water quality analysis type |
getQualityInfo | Retrieves the quality info - bug in ENgetqualinfo |
getQualityTraceNodeIndex | Retrieves the trace node index of water quality analysis type |
getQualityType | Retrieves the type of water quality analysis type |
getRules | Retrieves the rule - based control statements. (EPANET Version 2.2) |
getRuleCount | Retrieves the number of rules. (EPANET Version 2.2) |
getRuleID | Retrieves the ID name of a rule-based control given its index. (EPANET Version 2.2) |
getRuleInfo | Retrieves summary information about a rule-based control given it's index. (EPANET Version 2.2) |
getStatistic | Retrieves hydraulic simulation statistic |
getTimeHTime | Retrieves the number of htime |
getTimeQTime | Retrieves the number of qtime |
getTimeHaltFlag | Retrieves the number of halt flag |
getTimeHydraulicStep | Retrieves the value of the hydraulic time step |
getTimeNextEvent | Retrieves the number of next event |
getTimeNextEventTank | Retrieves the index of tank with shortest time to become empty or full |
getTimePatternStart | Retrieves the value of pattern start time |
getTimePatternStep | Retrieves the value of the pattern time step |
getTimeQualityStep | Retrieves the value of the water quality time step |
getTimeReportingPeriods | Retrieves the number of reporting periods saved to the binary |
getTimeReportingStart | Retrie ves the value of the reporting start time |
getTimeReportingStep | Retrieves the value of the reporting time step |
getTimeRuleControlStep | Retrieves the time step for evaluating rule-based controls |
getTimeSimulationDuration | Retrieves the value of simulation duration |
getTimeStartTime | Retrieves the number of start time |
getTimeStatisticsType | Retrieves the type of time series post-processing ('NONE','AVERAGE','MINIMUM','MAXIMUM', 'RANGE') |
getTimeStatisticsIndex | Retrieves the type of time series post-processing |
getTitle | Retrieves the title lines of the project |
getUnits | Retrieves the Units of Measurement |
getVersion | Retrieve the current EPANET version of DLL |
getNodesInfo | Retrieves nodes info e.g. elevations, demand pattern indices, emitter coeff. , initial quality, source quality, source pattern indices, source type code, type indices |
getLinksInfo | Retrieves links info e.g. diameters, lengths, roughness coeff. , minor loss coeff. , initial status, initial settings, bulk reaction coeff. , wall reaction coeff. , nodes connecting link indices, type indices |
addControls | Adds a new simple control. (EPANET Version 2.2) |
addCurve | Adds a new curve appended to the end of the existing curves |
addPattern | Adds a new time pattern to the network |
addNodeJunction | Adds a new junction |
addNodeJunctionDemand | Adds a new demand to a junction given the junction index, base demand, demand time pattern and demand name category. (EPANET Version 2.2) |
addNodeReservoir | Adds a new reservoir |
addNodeTank | Adds a new tank |
addLinkPipeCV | Adds a new CV pipe |
addLinkPipe | Adds a new pipe |
addLinkPump | Adds a new pump |
addLinkValvePRV | Adds a new PRV valve |
addLinkValvePSV | Adds a new PSV valve |
addLinkValvePBV | Adds a new PBV valve |
addLinkValveFCV | Adds a new FCV valve |
addLinkValveTCV | Adds a new TCV valve |
addLinkValveGPV | Adds a new GPV valve |
addRules | Adds a new rule-based control to a project. (EPANET Version 2.2) |
deleteAllTemps | Delete all temporary files (.inp, .bin) created in networks folder |
deleteControls | Deletes an existing simple control. (EPANET Version 2.2) |
deleteCurve | Deletes a data curve from the project |
deleteLink | Deletes a link |
deleteNode | Deletes a node |
deleteNodeJunctionDemand | Deletes a demand from a junction given the junction index and demand index(EPANET Version 2.2) |
deletePattern | Deletes a time pattern from a project |
deletePatternAll | Deletes all time patterns from a project |
deleteRules | Deletes an existing rule-based control given it's index. (EPANET Version 2.2) |
clearReport | Clears the contents of a project's report file. (EPANET Version 2.2) |
copyReport | Copies the current contents of a project's report file to another file. (EPANET Version 2.2) |
closeHydraulicAnalysis | Closes the hydraulic analysis system, freeing all allocated memory |
closeNetwork | Closes down the Toolkit system |
closeQualityAnalysis | Closes the water quality analysis system, freeing all allocated memory |
runsCompleteSimulation | Runs a complete hydraulic and water simulation to create binary & report files with default name net_temp.bin or you can use argument to run via ENepanet |
initializeEPANET | Initializes an EPANET project that isn't opened with an input file |
initializeHydraulicAnalysis | Initializes storage tank levels, link status and settings, and the simulation clock time prior to running a hydraulic analysis |
initializeQualityAnalysis | Initializes water quality and the simulation clock time prior to running a water quality analysis |
nextHydraulicAnalysisStep | Determines the length of time until the next hydraulic event occurs in an extended period simulation |
nextQualityAnalysisStep | Advances the water quality simulation to the start of the next hydraulic time period |
openAnyInp | Open as on matlab editor any EPANET input file |
openCurrentInp | Open EPANET input file who is loaded |
openHydraulicAnalysis | Opens the hydraulics analysis system |
openQualityAnalysis | Opens the water quality analysis system |
readEpanetBinaryFile | Read binary files |
runHydraulicAnalysis | Runs a single period hydraulic analysis, retrieving the current simulation clock time t |
reverseLinkNodeIndices | Reverses the node indices that connect a link |
runProject | Runs a complete EPANET simulation |
runQualityAnalysis | Makes available the hydraulic and water quality results that occur at the start of the next time period of a water quality analysis, where the start of the period is returned in t |
saveHydraulicFile | Saves the current contents of the binary hydraulics file to a file |
saveHydraulicsOutputReportingFile | Transfers results of a hydraulic simulation from the binary Hydraulics file to the binary Output file, where results are only reported at uniform reporting intervals |
saveInputFile | Writes all current network input data to a file using the format of an EPANET input file |
plot | Plot the network input file |
plotDiGraph | Plots the network with flow directions |
plotGraph | Plots the graph of the current epanet network |
setControls | Sets the parameters of a simple control statement |
setCurve | Sets x,y values for a specific curve |
setCurveNameID | Sets the name ID of a curve given it's index and the new ID. (EPANET Version 2.2) |
setCurveValue | Retrieves x,y point for a specific point number and curve |
setDemandModel | Sets the type of demand model to use and its parameters |
setFlowUnitsAFD | Sets flow units to AFD |
setFlowUnitsCFS | Sets flow units to CFS |
setFlowUnitsCMD | Sets flow units to CMD |
setFlowUnitsCMH | Sets flow units to CMH |
setFlowUnitsGPM | Sets flow units to GPM |
setFlowUnitsIMGD | Sets flow units to IMGD |
setFlowUnitsLPM | Sets flow units to LPM |
setFlowUnitsLPS | Sets flow units to LPS |
setFlowUnitsMGD | Sets flow units to MGD |
setFlowUnitsMLD | Sets flow units to MLD |
setLinkBulkReactionCoeff | Sets the values of bulk reactions |
setLinkComment | Sets the comment string assigned to the link object |
setLinkDiameter | Sets the values of diameters |
setLinkPipeData | Sets a group of properties for a pipe. (EPANET Version 2.2) |
setLinkPumpHeadCurveIndex | Sets the curves index for pumps index |
setLinkPumpPatternIndex | Sets the pump speed time pattern index. (EPANET Version 2.2) |
setLinkPumpPower | Sets the power for pumps. (EPANET Version 2.2) |
setLinkPumpHCurve | Sets the pump head v. flow curve index. (EPANET Version 2.2) |
setLinkPumpECurve | Sets the pump efficiency v. flow curve index. (EPANET Version 2.2) |
setLinkPumpECost | Sets the pump average energy price. (EPANET Version 2.2) |
setLinkPumpEPat | Sets the pump energy price time pattern index. (EPANET Version 2.2) |
setLinkInitialSetting | Sets the values of initial settings |
setLinkInitialStatus | Sets the values of initial status |
setLinkLength | Sets the values of lengths |
setLinkMinorLossCoeff | Sets the values of minor loss coeff. |
setLinkNameID | Sets the ID name for links |
setLinkNodesIndex | Sets the indexes of a link's start- and end-nodes. (EPANET Version 2.2) |
setLinkRoughnessCoeff | Sets the values of roughness coeff. |
setLinkSettings | Sets the values of settings |
setLinkStatus | Sets the values of status |
setLinkTypePipe | Set the link type pipe for a specified link |
setLinkTypePipeCV | Set the link type cvpipe for a specified link |
setLinkTypePump | Set the link type pump for a specified link |
setLinkTypeValveFCV | Set the link type valve FCV for a specified link |
setLinkTypeValveGPV | Set the link type valve PCV for a specified link |
setLinkTypeValvePBV | Set the link type valve PBV for a specified link |
setLinkTypeValvePRV | Set the link type valve PRV for a specified link |
setLinkTypeValvePSV | Set the link type valve PSV for a specified link |
setLinkTypeValveTCV | Set the link type valve TCV for a specified link |
setLinkVertices | Assigns a set of internal vertex points to a link |
setLinkWallReactionCoeff | Sets the values of wall reactions |
setNodeBaseDemands | Sets the values of demands |
setNodeComment | Sets the comment string assigned to the node object |
setNodeCoordinates | Sets node coordinates |
setNodeDemandPatternIndex | Sets the values of demand pattern indices |
setNodeElevations | Sets the values of elevations |
setNodeEmitterCoeff | Sets the values of emitter coeff. |
setNodeInitialQuality | Sets the values of initial qualities |
setNodeJunctionData | Sets a group of properties for a junction node. (EPANET Version 2.2) |
setNodeJunctionDemandName | Assigns a name to a node's demand category |
setNodeNameID | Sets the ID name for nodes |
setNodeSourcePatternIndex | Sets the values of source pattern indices |
setNodeSourceQuality | Sets the values of source qualities |
setNodeSourceType | Sets the values of source types |
setNodesConnectingLinksID | Sets the ID of a link's start-node(s) and end-node(s). (EPANET Version 2.2) |
setNodeTankData | Sets a group of properties for a tank. (EPANET Version 2.2) |
setNodeTankBulkReactionCoeff | Sets the values of tank bulk reaction coeff. |
setNodeTankDiameter | Sets the values of tanks diameter |
setNodeTankCanOverFlow | Sets the value of tank can overflow (= 1) or not (= 0) |
setNodeTankInitialLevel | Sets the values of tanks initial level |
setNodeTankMaximumWaterLevel | Sets the values of tanks maximum water level |
setNodeTankMinimumWaterLevel | Sets the values of tanks minimum water level |
setNodeTankMixingFraction | Sets the values of tanks mix fraction |
setNodeTankMinimumWaterVolume | Sets the values of tanks minimum water volume |
setNodeTankMixingModelType | Sets the values of tanks model |
setNodeTypeJunction | Transforms a node to junction |
setNodeTypeReservoir | Transforms a node to reservoir |
setNodeTypeTank | Transforms a node to tank |
setOptionsAccuracyValue | Sets the value of accurancy |
setOptionsGlobalEffic | Sets the value of global pump efficiency(percent) (EPANET Version 2.2) |
setOptionsGlobalPrice | Sets the value of global energy price per KWH (EPANET Version 2.2) |
setOptionsGlobalPattern | Sets the index of a global energy price pattern (EPANET Version 2.2) |
setOptionsDemandCharge | Sets the energy demand charge per max. KW usage (EPANET Version 2.2) |
setOptionsSpecificGravity | Sets the specific gravity (EPANET Version 2.2) |
setOptionsSpecificViscosity | Sets the specific viscosity (EPANET Version 2.2) |
setOptionsExtraTrials | Sets the extra trials allowed if hydraulics don't converge (EPANET Version 2.2) |
setOptionsMaximumCheck | Sets the maximum trials for status checking. (EPANET Version 2.2) |
setOptionsCheckFrequency | Sets the frequency of hydraulic status checks (EPANET Version 2.2) |
setOptionsDampLimit | Sets the accuracy level where solution damping begins. (EPANET Version 2.2) |
setOptionsSpecificDiffusivity | Sets the specific diffusivity (relative to chlorine at 20 deg C). (EPANET Version 2.2) |
setOptionsPipeBulkReactionOrder | Sets the bulk water reaction order for pipes. (EPANET Version 2.2) |
setOptionsPipeWallReactionOrder | Sets the wall reaction order for pipes (either 0 or 1). (EPANET Version 2.2) |
setOptionsTankBulkReactionOrder | Sets the bulk water reaction order for tanks. (EPANET Version 2.2) |
setOptionsLimitingConcentration | Sets the limiting concentration for growth reactions. (EPANET Version 2.2) |
setOptionsEmitterExponent | Sets the value of emitter exponent |
setOptionsMaxTrials | Sets the value of max trials |
setOptionsPatternDemandMultiplier | Sets the value of pattern demand multiplier |
setOptionsQualityTolerance | Sets the value of tolerance |
setPattern | Sets all of the multiplier factors for a specific time pattern |
setPatternComment | Sets the comment string assigned to the pattern object |
setPatternNameID | Sets the name ID of a time pattern given it's index and the new ID. (EPANET Version 2.2) |
setPatternMatrix | Sets all of the multiplier factors for all patterns |
setPatternValue | Sets the multiplier factor for a specific period within a time pattern |
setQualityType | Sets the type of water quality analysis called for |
setReport | Issues a report formatting command. Formatting commands are the same as used in the [REPORT] section of the EPANET Input file |
setReportFormatReset | Clears any report formatting commands that either appeared in the [REPORT] section of the EPANET Input file or were issued with the ENsetreport function |
setReportStatus | Sets the level of hydraulic status reporting |
setRules | Sets a rule - based control. (EPANET Version 2.2) |
setRuleElseAction | Sets rule - based control else actions. (EPANET Version 2.2) |
setRulePremise | Sets the premise of a rule - based control. (EPANET Version 2.2) |
setRulePremiseObejctNameID | Sets the ID of an object in a premise of a rule-based control. (EPANET Version 2.2) |
setRulePremiseStatus | Sets the status being compared to in a premise of a rule-based control. (EPANET Version 2.2) |
setRulePremiseValue | Sets the value being compared to in a premise of a rule-based control. (EPANET Version 2.2) |
setRulePriority | Sets rule - based control priority. (EPANET Version 2.2) |
setRuleThenAction | Sets rule - based control then actions. (EPANET Version 2.2) |
setTimeHydraulicStep | Sets the hydraulic step |
setTimePatternStart | Sets the pattern start |
setTimePatternStep | Sets the pattern step |
setTimeQualityStep | Sets the quality step |
setTimeReportingStart | Sets the reporting start |
setTimeReportingStep | Sets the reporting step |
setTimeRuleControlStep | Sets the rule control step |
setTimeSimulationDuration | Sets the simulation duration |
setTimeStatisticsType | Sets the statistic type |
setTitle | Sets the title lines of the project |
solveCompleteHydraulics | Runs a complete hydraulic simulation with results for all time periods written to the binary Hydraulics file |
solveCompleteQuality | Runs a complete water quality simulation with results at uniform reporting intervals written to EPANET's binary Output file |
splitPipe | Splits a pipe, creating two new pipes and adds a junction in between them |
stepQualityAnalysisTimeLeft | Advances the water quality simulation one water quality time step. The time remaining in the overall simulation is returned in tleft |
toJson | Creates json text variable |
toJsonFile | Creates a .json file and adds the input values in json format |
useHydraulicFile | Uses the contents of the specified file as the current binary hydraulics file |
writeLineInReportFile | Writes a line of text to the EPANET report file |
writeReport | Writes a formatted text report on simulation results to the Report file |
MSX Functions | |
loadMSXFile | Opens the EPANET-MSX toolkit system |
addMSXPattern | Adds a new, empty MSX source time pattern to the project |
initializeMSXQualityAnalysis | Initializes the MSX system before solving for water quality results in step-wise fashion |
saveMSXFile | Saves the data associated with the current MSX project into a new MSX input file |
saveMSXQualityFile | Saves water quality results computed for each node, link and reporting time period to a named binary file |
solveMSXCompleteHydraulics | Solves for system hydraulics over the entire simulation period saving results to an internal scratch file |
solveMSXCompleteQuality | Solves for water quality over the entire simulation period and saves the results to an internal scratch file |
stepMSXQualityAnalysisTimeLeft | Advances the water quality solution through a single water quality time step when performing a step-wise simulation |
writeMSXFile | Write a new MSX file |
writeMSXReport | Writes water quality simulations results as instructed by the MSX input file to a text file |
writeMSXReportExe | Writes water quality simulations results as instructed by the MSX input file to a specific name text file |
useMSXHydraulicFile | Uses a previously saved EPANET hydraulics file as the source of hydraulic information |
plotMSXSpeciesNodeConcentration | Plots the concentration species of links |
plotMSXSpeciesLinkConcentration | Plots the concentration species of nodes |
unloadMSX | Closes the EPANET-MSX toolkit system |
getMSXAtol | Retrieves the absolute concentration tolerance |
getMSXRtol | Retrieves the relative concentration tolerance |
getMSXComputedQualitySpecie | Retrieves the quality values for specific specie (e.g getMSXComputedQualitySpecie('CL2')) |
getMSXComputedLinkQualitySpecie | Returns the link quality for specific specie |
getMSXComputedNodeQualitySpecie | Returns the node quality for specific specie |
getMSXComputedQualityLink | Retrieves the concentration of a chemical species at a specific link of the network at the current simulation time step |
getMSXComputedQualityNode | Retrieves the concentration of a chemical species at a specific node of the network at the current simulation time step. |
getMSXComputedTimeSeries | Retrieves the concentration of chemical species |
getMSXConstantsCount | Retrieves the number of constants |
getMSXConstantsIndex | Retrieves the internal index number of constants (given its ID name) |
getMSXConstantsNameID | Retrieves the ID name of constants (given its internal index number) |
getMSXConstantsValue | Retrieves the value of a particular reaction constant |
getMSXError | Returns the text for an error message given its error code |
getMSXLinkInitqualValue | Retrieves the initial concentration of chemical species assigned to links of the pipe network |
getMSXNodeInitqualValue | Retrieves the initial concentration of chemical species assigned to nodes |
getMSXOptions | Retrieves all the msx option parameters |
getMSXParametersCount | Retrieves the number of parameters |
getMSXParametersIndex | Retrieves the indices of parameters |
getMSXParametersNameID | Retrieves the ID name of parameters |
getMSXParametersPipesValue | Retrieves the value of reaction parameters for pipes |
getMSXParametersTanksValue | Retrieves the value of reaction parameters for tanks |
getMSXPattern | Retrieves the multiplier factor for all patterns and all times |
getMSXPatternValue | Retrieves the multiplier at a specific time period for a given source time pattern |
getMSXPatternsCount | Retrieves the number of patterns |
getMSXPatternsIndex | Retrieves the indices of patterns |
getMSXPatternsLengths | Retrieves the number of time periods in all or some patterns |
getMSXPatternsNameID | Retrieves the patterns IDs |
getMSXSourceLevel | Retrieves the value of all nodes source level |
getMSXSourceNodeNameID | Retrieves the ID label of all nodes |
getMSXSourcePatternIndex | Retrieves the value of all node source pattern index |
getMSXSourceType | Retrieves the value of all node source type |
getMSXSources | Retrieves the source info |
getMSXSpeciesATOL | Retrieves the atol |
getMSXSpeciesRTOL | Retrieves the rtol |
getMSXSpeciesConcentration | Retrieves the concentration of chemical species for nodes and links |
getMSXSpeciesCount | Retrieves the number of species |
getMSXSpeciesIndex | Retrieves the indices of species |
getMSXSpeciesNameID | Retrieves the species IDs |
getMSXSpeciesType | Retrieves the type of all species (BULK/WALL) |
getMSXSpeciesUnits | Retrieves the species mass units |
getMSXTimeStep | Retrieves the time step |
getMSXRateUnits | Retrieves the rate/time units (SEC/MIN/HR/DAY) |
getMSXAreaUnits | Retrieves the area units (FT2/M2/CM2) |
getMSXCompiler | Retrieves the compiler (NONE/VC/GC) |
getMSXCoupling | Retrieves the coupling (FULL/NONE) |
getMSXEquationsPipes | Retrieves the species dynamics in pipes |
getMSXEquationsTanks | Retrieves the species dynamics in tanks |
getMSXEquationsTerms | Retrieves the species dynamics in terms |
getMSXSolver | Retrieves the solver (EUL/RK5/ROS2) |
setMSXAreaUnitsCM2 | Sets area units to CM2 |
setMSXAreaUnitsFT2 | Sets area units to FT2 |
setMSXAreaUnitsM2 | Sets area units to M2 |
setMSXAtol | Sets the value of Atol |
setMSXRtol | Sets the value of Rtol |
setMSXCompilerGC | Sets compilet to GC |
setMSXCompilerNONE | Sets compiler to None |
setMSXCompilerVC | Sets compiler to VC |
setMSXConstantsValue | Assigns a new value to a specific reaction constant |
setMSXCouplingFULL | Sets coupling option to FULL |
setMSXCouplingNONE | Sets coupling option to NONE |
setMSXLinkInitqualValue | Assigns an initial concentration of chemical species to links |
setMSXNodeInitqualValue | Assigns an initial concentration of chemical species to nodes |
setMSXParametersPipesValue | Assigns a value to a particular reaction parameter for given pipes |
setMSXParametersTanksValue | Assigns a value to a particular reaction parameter for given tanks |
setMSXPattern | Sets all of the multiplier factors for a specific time pattern |
setMSXPatternMatrix | Sets all of the multiplier factors for all patterns |
setMSXPatternValue | Assigns a new value to the multiplier for a specific time period in a given MSX source time pattern |
setMSXRateUnitsDAY | Sets rate units to DAY |
setMSXRateUnitsHR | Sets rate units to HR |
setMSXRateUnitsMIN | Sets rate units to MIN |
setMSXRateUnitsSEC | Sets rate units to SEC |
setMSXSolverEUL | Sets solver to EUL (standard Euler integrator) |
setMSXSolverRK5 | Sets solver to RK5 (Runge-Kutta 5th order integrator) |
setMSXSolverROS2 | Sets solver to ROS2 (2nd order Rosenbrock integrator) |
setMSXSources | Sets the attributes of an external source of a particular chemical species to a specific node of the pipe network |
setMSXTimeStep | Sets time step |
Bin Functions | |
BinClose | Close binary files and delete |
BinUpdateClass | Run all bin functions and update the results |
Binplot | Plot the network input file |
addBinControl | Adds a new control to the network |
addBinCurveEfficiency | Adds a new curve efficiency to the network |
addBinCurveHeadloss | Adds a new curve headloss to the network |
addBinCurvePump | Adds a new curve pump to the network |
addBinCurveVolume | Adds a new curve volume to the network |
addBinJunction | Adds a new junction to the network |
addBinNodeJunction | Adds a new junction to the network |
addBinPattern | Adds a new time pattern to the network |
addBinPipe | Adds a new pipe to the network |
addBinLinkPipe | Adds a new pipe to the network |
addBinPump | Adds a new pump to the network |
addBinLinkPump | Adds a new pump to the network |
addBinReservoir | Adds a new reservoir to the network |
addBinNodeReservoir | Adds a new reservoir to the network |
addBinTank | Adds a new tank to the network |
addBinNodeTank | Adds a new tank to the network |
addBinValveFCV | Adds a new valve FCV to the network |
addBinValveGPV | Adds a new valve GPV to the network |
addBinValvePBV | Adds a new valve PBV to the network |
addBinValvePRV | Adds a new valve PRV to the network |
addBinValvePSV | Adds a new valve PSV to the network |
addBinValveTCV | Adds a new valve TCV to the network |
addBinLinkValve | Adds a new valve to the network |
addBinLinkVertices | Adds interior vertex points to network links |
removeBinControlLinkID | Removes a specific control based on link ID |
removeBinControlNodeID | Removes a specific control based on node ID |
removeBinCurveID | Removes a specific curve based on ID |
removeBinLinkID | Removes a specific link based on ID |
removeBinNodeID | Removes a specific node based on ID |
removeBinRulesControlLinkID | Removes a specific rule based on link ID |
removeBinRulesControlNodeID | Removes a specific rule based on node ID |
deleteBinLinkVertices | Deletes interior vertex points of network links |
saveBinInpFile | Writes all current network input data to a file using the format of an EPANET input file |
getBinComputedAllParameters | Computes hydraulic and quality time series |
getBinComputedAverageBulkReactionRate | Computes the average bulk reaction rate |
getBinComputedAverageCostPerDay | Computes the average cost per day |
getBinComputedAverageEfficiency | Computes the average efficiency |
getBinComputedAverageKwatts | Computes the average Kwatts |
getBinComputedAverageKwattsOrMillionGallons | Computes the average Kwatts or million gallons |
getBinComputedAverageSourceInflow | Computes the average source inflow |
getBinComputedAverageTankReactionRate | Computes the average tank reaction rate |
getBinComputedAverageWallReactionRate | Computes average wall reaction rate |
getBinComputedLinkFlow | Computes the flow of links |
getBinComputedLinkFrictionFactor | Computes the link friction factor |
getBinComputedLinkHeadloss | Computes the headloss of links |
getBinComputedLinkQuality | Computes the quality of links |
getBinComputedLinkReactionRate | Computes the reaction rate of links |
getBinComputedLinkSetting | Computes the setting of links |
getBinComputedLinkStatus | Computes the status of links |
getBinComputedLinkVelocity | Computes the velocity of links |
getBinComputedNodeDemand | Computes the demand of nodes |
getBinComputedNodeHead | Computes the head of nodes |
getBinComputedNodePressure | Computes the pressure of nodes |
getBinComputedNodeQuality | Computes the quality of nodes |
getBinComputedPeakKwatts | Computes the peak Kwatts |
getBinComputedPumpIndexListLinks | Retrieves the pump indices |
getBinComputedPumpUtilization | Computes the pump utilization |
getBinDiameterEachLink | Retrieves the diameter of each link |
getBinLengthEachLink | Retrieves the length of each link |
getBinLinkIndex | Retrieves the indices of all links |
getBinLinkNameID | Retrieves the ID label(s) of all links |
getBinElevationEachNode | Retrieves the elevation of each node |
getBinNodeCoordinates | Retrieves coordinate x, y, and x, y vertices for a node |
getBinNodeIndex | Retrieves the indices of all nodes |
getBinNodeNameID | Retrieves the ID label(s) of all nodes |
getBinNumberReportingPeriods | Retrieves the number of reporting periods |
getBinControlsInfo | Retrieves the controls info |
getBinCurvesInfo | Retrieves the curves info |
getBinLinksInfo | Retrieves the links info |
getBinLimitingPotential | Retrieves limiting potential |
getBinNodesInfo | Retrieves the nodes info |
getBinNodeSourceInfo | Retrieves the sources info |
getBinOptionsInfo | Retrieves the options info |
getBinPatternsInfo | Retrieves the patterns info |
getBinRulesControlsInfo | Retrieves the controls info |
getBinTimesInfo | Retrieves the times info |
getBinPatternIndex | Retrieves the indices of all patterns |
getBinSimulationDuration | Retrieves the value of simulation duration |
getBinSections | Retrieves some basic sections from inp file |
getBinUnits | Retrieves the units used to express all flow rates |
getBinLinkVertices | Retrieves the link vertices |
getBinLinkVerticesCount | Retrieves the number of vertices |
setBinFlowUnitsAFD | Sets flow units to AFD |
setBinFlowUnitsCFS | Sets flow units to CFS |
setBinFlowUnitsCMD | Sets flow units to CMD |
setBinFlowUnitsCMH | Sets flow units to CMH |
setBinFlowUnitsGPM | Sets flow units to GPM |
setBinFlowUnitsIMGD | Sets flow units to IMGD |
setBinFlowUnitsLPM | Sets flow units to LPM |
setBinFlowUnitsLPS | Sets flow units to LPS |
setBinFlowUnitsMGD | Sets flow units to MGD |
setBinFlowUnitsMLD | Sets flow units to MLD |
setBinHeadlossCM | Sets headloss to C-M |
setBinHeadlossDW | Sets headloss to D-W |
setBinHeadlossHW | Sets headloss to H-W |
setBinLinkGlobalBulkReactionCoeff | Sets the global bulk reaction rate coeff. |
setBinLinkGlobalWallReactionCoeff | Sets the global wall reaction rate coeff. |
setBinLimitingPotential | Sets limiting potential |
setBinLinkPipeDiameters | Sets the values of pipe diameters |
setBinLinkPipeLengths | Sets the values of pipe lengths |
setBinLinkPipeMinorLoss | Sets the values of pipe minor losses |
setBinLinkPipeRoughness | Sets the values of pipe roughness |
setBinLinkPipeStatus | Sets the values of pipe status |
setBinLinkPipesParameters | Sets the values of pipe parameters (diameters, lengths, minor losses, roughness, status) |
setBinLinkPumpStatus | Sets the values of pump status |
setBinLinkReactionCoeff | Sets the values of bulk and wall reaction coeff. |
setBinLinkValvesParameters | Sets the values of valve parameters (diameters, types, settings, minor losses) |
setBinNodeJunDemandPatternNameID | Sets the names of demand pattern IDs for junctions |
setBinNodeInitialQuality | Sets the values of initial qualities |
setBinNodeJunctionElevation | Sets the values of elevations for junctions |
setBinNodeJunctionsBaseDemands | Sets the values of base demands |
setBinNodeJunctionsParameters | Sets the values of junction parameters (elevations, base demands, demand patterns) |
setBinNodeResDemandPatternNameID | Sets the names of demand pattern IDs for reservoirs |
setBinNodeReservoirElevation | Sets the values of elevations for reservoirs |
setBinNodeReservoirParameters | Sets the values of reservoir parameters (elevations, patterns) |
setBinNodeSourceQuality | Sets the values of source qualities |
setBinNodeTankDiameter | Sets the values of tanks diameter |
setBinNodeTankElevation | Sets the values of tanks elevation |
setBinNodeTankInitialLevel | Sets the values of tanks initial level |
setBinNodeTankMaximumWaterLevel | Sets the values of tanks maximum water level |
setBinNodeTankMinimumWaterLevel | Sets the values of tanks minimum water level |
setBinNodeTankMinimumWaterVolume | Sets the values of tanks minimum water volume |
setBinNodeTankParameters | Sets the values of reservoir parameters (elevations, initialLevels, minLevels, maxLevels, diameters, minVolume, mixfraction) |
setBinPattern | Sets all of the multiplier factors for a specific time pattern |
setBinQualityAge | Sets the type of water quality analysis to Age |
setBinQualityChem | Sets the type of water quality analysis to Chem |
setBinQualityNone | Sets the type of water quality analysis to None |
setBinQualityTrace | Sets the type of water quality analysis to Trace |
setBinQualType | Sets the type of water quality analysis to any chem e.g. chlorine |
setBinTimeHydraulicStep | Sets the hydraulic step |
setBinTimePatternStart | Sets the pattern start |
setBinTimePatternStep | Sets the pattern step |
setBinTimeQualityStep | Sets the quality step |
setBinTimeReportingStart | Sets the reporting start |
setBinTimeReportingStep | Sets the reporting step |
setBinTimeSimulationDuration | Sets the simulation duration |
setBinTimeStatisticsAverage | Sets the statistic type to Average |
setBinTimeStatisticsMaximum | Sets the statistic type to Maximum |
setBinTimeStatisticsMinimum | Sets the statistic type to Minimum |
setBinTimeStatisticsNone | Sets the statistic type to None |
setBinTimeStatisticsRange | Sets the statistic type to Range |
setBinLinkVertices | Sets interior vertex points of network links |
Function | Description |
---|---|
ENaddpattern | Adds a new time pattern to the network |
ENclose | Closes down the Toolkit system (including all files being processed) |
ENcloseH | Closes the hydraulic analysis system, freeing all allocated memory |
ENcloseQ | Closes the water quality analysis system, freeing all allocated memory |
ENepanet | Runs a complete EPANET simulation |
ENgetcount | Retrieves the number of network components of a specified type |
ENgetcontrol | Retrieves the parameters of a simple control statement |
ENgeterror | Retrieves the text of the message associated with a particular error or warning code |
ENgetflowunits | Retrieves a code number indicating the units used to express all flow rates |
ENgetlinkid | Retrieves the ID label of a link with a specified index |
ENgetlinkindex | Retrieves the index of a link with a specified ID |
ENgetlinknodes | Retrieves the indexes of the end nodes of a specified link |
ENgetlinktype | Retrieves the link-type code for a specific link |
ENgetlinkvalue | Retrieves the value of a specific link parameter |
ENgetnodeid | Retrieves the ID label of a node with a specified index |
ENgetnodeindex | Retrieves the index of a node with a specified ID |
ENgetnodetype | Retrieves the node-type code for a specific node |
ENgetnodevalue | Retrieves the value of a specific link parameter |
ENgetoption | Retrieves the value of a particular analysis option |
ENgetpatternid | Retrieves the ID label of a particular time pattern |
ENgetpatternindex | Retrieves the index of a particular time pattern |
ENgetpatternlen | Retrieves the number of time periods in a specific time pattern |
ENgetpatternvalue | Retrieves the multiplier factor for a specific time period in a time pattern |
ENgetqualtype | Retrieves the type of water quality analysis called for |
ENgettimeparam | Retrieves the value of a specific analysis time parameter |
ENgetversion | Retrieves the version number |
ENinitH | Initializes hydraulic analysis |
ENinitQ | Initializes water quality analysis |
ENnextH | Determine time (in seconds) until next hydraulic event |
ENnextQ | Advances WQ simulation to next hydraulic event |
ENopen | Opens EPANET input file & reads in network data |
ENopenH | Sets up data structures for hydraulic analysis |
ENopenQ | Sets up data structures for WQ analysis |
ENreport | Writes simulation report to the report file |
ENresetreport | Resets report options to default values |
ENrunH | Run a hydraulic solution period |
ENrunQ | Retrieves hydraulic & WQ results at time t |
ENsaveH | Saves hydraulic results to binary file |
ENsavehydfile | Copies binary hydraulics file to disk |
ENsaveinpfile | Saves current data to "INP" formatted text file |
ENsetcontrol | Specify parameters to define a simple control |
ENsetlinkvalue | Set a proprty value for a link |
ENsetnodevalue | Set a property value for a node |
ENsetoption | Set a value for an anlysis option |
ENsetpattern | Set multipliers for a specific pattern |
ENsetpatternvalue | Set the multiplier for a specific pattern at a specific period |
ENsetqualtype | Sets the type of water quality analysis called |
ENsetreport | Processes a reporting format command |
ENsetstatusreport | Sets the level of hydraulic status reporting |
ENsettimeparam | Set the value for a time parameter |
ENsolveH | Solves the network hydraulics for all time periods |
ENsolveQ | Solves for network water quality in all time periods |
ENstepQ | Advances WQ simulation by a single WQ time step |
ENusehydfile | Opens previously saved binary hydraulics file |
ENwriteline | Writes line of text to the report file |
Function | Description |
---|---|
ENaddcurve | Adds a new curve appended to the end of the existing curves |
ENgetaveragepatternvalue | Retrieves the average value of a pattern |
ENgetbasedemand | Retrieves the nodes base demand for a category |
ENgetcoord | Retrieves coordinate x, y for a node |
ENgetcurve | Retrieves a curve's properties |
ENgetcurveid | Retrieves ID of a curve with specific index |
ENgetcurveindex | Retrieves index of curve with specific ID |
ENgetcurvelen | Retrieves number of points in a curve |
ENgetcurvevalue | Retrieves x,y point for a specific point number and curve |
ENgetdemandpattern | Retrieves the index of a demand pattern for a specific demand category of a node |
ENgetheadcurveindex | Retrieves index of a head curve for specific link index |
ENgetnumdemands | Retrieves the number of demand categories for a node |
ENgetpumptype | Retrieves the type of a pump for specific link index |
ENgetqualinfo | Retrieves quality analysis information (type, chemical name, units, trace node ID) |
ENgetstatistic | Retrieves hydraulic simulation statistic |
ENsetbasedemand | Sets the nodes base demand for a category |
ENsetcoord | Sets coordinate x, y for a node |
ENsetcurve | Sets x,y values for a specific curve |
ENsetcurvevalue | Sets x,y point for a specific point and curve |
Function | Description |
---|---|
ENaddcontrol | Specify parameters to add a new simple control |
ENaddlink | Adds a new link |
ENaddnode | Adds a new node |
ENaddrule | Adds a new rule-based control to a project |
ENadddemand | Appends a new demand to a junction node demands list |
ENclearreport | Clears the contents of a project's report file |
ENcopyreport | Copies the current contents of a project's report file to another file |
ENdeletelink | Deletes a link |
ENdeletenode | Deletes a node |
ENdeletedemand | Deletes a demand from a junction node |
ENsetcurveid | Changes the ID name of a data curve given its index |
ENsetpatternid | Changes the ID name of a time pattern given its index |
ENsetdemandpattern | Sets the index of the demand pattern assigned to a node for a category index |
ENsetheadcurveindex | Sets the curve index for a specified pump index |
ENgetcurvetype | Retrieves the type of a curve |
ENgetdemandindex | Retrieves the index of a node's named demand category |
ENgetpremise | Gets the properties of a premise in a rule-based control |
ENgetelseaction | Gets the properties of an ELSE action in a rule-based control |
ENgetruleid | Gets the ID name of a rule-based control given its index |
ENgetrule | Retrieves summary information about a rule-based control |
ENgetthenaction | Gets the properties of a THEN action in a rule-based control |
ENsetflowunits | Sets the flow units |
ENgetdemandmodel | Retrieves the type of demand model in use and its parameters |
ENsetdemandmodel | Sets the type of demand model to use and its parameters |
ENsetelseaction | Sets the properties of an ELSE action in a rule-based control |
ENsetnodeid | Change the ID name for a node |
ENsetlinkid | Change the ID name for a link |
ENsetpipedata | Sets a group of properties for a pipe link |
ENsetpremise | Sets the properties of a premise in a rule-based control |
ENsetpremiseindex | Sets the index of an object in a premise of a rule-based control |
ENsetpremisestatus | Sets the status being compared to in a premise of a rule-based control |
ENsetpremisevalue | Sets the value in a premise of a rule-based control |
ENsetrulepriority | Sets the priority of a rule-based control |
ENsettankdata | Sets a group of properties for a tank node |
ENsetthenaction | Sets the properties of a THEN action in a rule-based control |
ENgettitle | Retrieves the title lines of the project |
ENsettitle | Sets the title lines of the project |
ENsetlinknodes | Sets the indexes of a link's start- and end-nodes |
ENsetlinktype | Changes the type of a particular link (e.g. pipe to pump) |
ENgetdemandname | Gets the name of a node's demand category |
ENsetdemandname | Assigns a name to a node's demand category |
ENgetcomment | Retrieves the comment string assigned to the object (NODE, LINK, TIMEPAT or CURVE) |
ENsetcomment | Sets the comment string assigned to the object (NODE, LINK, TIMEPAT or CURVE) |
ENdeletepattern | Deletes a time pattern from a project |
ENdeletecurve | Deletes a data curve from the project |
ENdeletecontrol | Deletes an existing simple control |
ENdeleterule | Deletes an existing rule-based control |
ENsetjuncdata | Sets a group of properties for a junction node |
ENgetvertex | Retrieves the coordinate's of a vertex point assigned to a link |
ENgetvertexcount | Retrieves the number of internal vertex points assigned to a link |
ENsetvertices | Assigns a set of internal vertex points to a link |
ENgetresultindex | Retrieves the order in which a node's or link's results were saved to an output file |
ENinit | Initializes an EPANET project that isn't opened with an input file |