Skip to content

OpenWaterAnalytics/epanet-msx

Repository files navigation

EPANET-MSX

The multi-species extension to the EPANET hydraulic analysis engine.

Core Toolkit Usage

Notes: Makes sure that MSX_open() is called first before anything else and that MSX_close() is called at the end to close out everything. Make sure that MSX_init() is called after everything is added, this must be done before any simulations are done. MSX_init() also must be called before Hydraulics are set. Hydraulics must be set before any calls to MSXstep().

Basic Example:

MSXproject MSX;
MSX_open(&MSX);
// Set Time Options
// Add Network
// Add Species
MSX_init(MSX);
// Set Hydraulics
while (timeLeft >= 0) {
    // Either print current quality or save results
    MSXstep(MSX, &time, &timeleft);
}
MSX_close(MSX);

Make sure that the in cases where an object is being added to another, that the object being added to is already created. For example when adding an expression make sure that the species that it is being added to already exists. Another example is when adding a quality make sure that the nodes or links already exist.

Building

In order to build, it is easiest to have CMake (https://cmake.org/) installed. The easiest way to build quickly is to run the bash script titled "build.sh" from the root directory. If you can't run the bash file, the instructions will be below.

It is important to build all three modules (MSX Core, Legacy DLL, and CLI) in the correct order as some of them have dependencies on each other. It is also very important that EPANET is built in the sam root directory as this repository, so for example a folder that contains EPANET and epanet-msx side by side. First, build the MSX Core module since it has no dependencies. Navigate into the MSX Core directory and create a new directory titled "build". Then navigate into that directory and run the CMake command.

mkdir build
cd build
cmake ..
cmake --build . --config Release

In order to build the Legacy DLL module, it is necessary to have a built version of the EPANET repository outside of the epanet-msx repository. Then follow the same steps as used in the MSX Core compilation.

mkdir build
cd build
cmake ..
cmake --build . --config Release

If you want to use the examples, then you can build the example-api module, otherwise you can just modify the main method in order to use the toolkit. in order to build follow the same steps as the other modules above.

mkdir build
cd build
cmake ..
cmake --build . --config Release

Lastly, to compile the CLI module, follow the same steps as used to compile the MSX Core. Note that it is important that the other two modules were compiled successfully in order for the CLI to compile successfully.

mkdir build
cd build
cmake ..
cmake --build . --config Release

In order for the executable to work, the following DLL's will need to be in the same directory: "core.dll", "legacy.dll", "epanet2.dll", and "examples.dll" (if using the example-api module). The EPANET 2 DLL is required because it is linked with the Legacy DLL.

Updates

This repository has gone through some substantial changes that will be highlighted below.

The goal behind the restructuring of EPANET-MSX was to remove dependencies on EPANET as well as dependencies on the EPANET input file (.inp) and the MSX input file (.msx). This way users can use EPANET-MSX as a toolkit rather than just through the input files. However it was also an important feature to maintain complete backwards compatibility. In order to maintain backwards compatibility in the easiest way possible, the repository was split into three directories: CLI, Legacy DLL, and MSX Core. These are structured in such a way to accomplish the goals listed above. The MSX Core contains all of the math and chemical reaction code as well as all of the core toolkit functions needed to create a network (previously done from .inp file using EPANET) and then also to add the species and reaction information (previously done from .msx file). The MSX Core also contains the function to set Hydraulics (previously done within EPANET) and step forawrd in the simulation. Lastly there is a function called MSXprintQuality which can be used to print the quality at the current time step of a specified species and node. This function is an alternate for the legacy MSXreport function which uses a binary out file to store results and then reads those results from the binary out file and writes them to the report file (which is still present in the Legacy DLL). The MSX Core has no dependencies.

The Legacy DLL contains all of the code that is used to parse the EPANET input file as well as the MSX input file. It also contains the functions to create reports. There is a function called MSXrunLegacy that runs the legacy main method, it takes in a MSXproject struct as well as argc and argv. All of the dependencies on EPANET are within Legacy DLL. The Legacy DLL is also dependent on the MSX Core library.

The CLI is basically just where the main function will be that can used functions from both the MSX Core and the Legacy DLL. This is where the executable will be created. The CLI is dependent on whatever it is using, for example in its current state it is dependent on both the Legacy DLL and MSX Core since both legacytoolkit.c and coretoolkit.c are included. In order to completely remove the dependencies of the CLI on the Legacy DLL, it is also important to alter the CMake files.

Below is a Diagram to help understand the dependencies of the repository:

MSXstructure.svg

About

multi-species extension to epanet

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Contributors 4

  •  
  •  
  •  
  •  

Languages