diff --git a/docs/make.jl b/docs/make.jl index 9ae03cc20..0daadbf69 100644 --- a/docs/make.jl +++ b/docs/make.jl @@ -69,6 +69,7 @@ pages = [ "Home" => "index.md", "WallyToolbox" => [ + "Modules/WallyToolbox/setup-guide.md", "Modules/WallyToolbox/constants.md", "Modules/WallyToolbox/elements.md", "Modules/WallyToolbox/utilities.md", diff --git a/docs/src/Computing/02-General-Computing-Skills.md b/docs/src/Computing/02-General-Computing-Skills.md index 483150687..591d50f35 100644 --- a/docs/src/Computing/02-General-Computing-Skills.md +++ b/docs/src/Computing/02-General-Computing-Skills.md @@ -18,7 +18,34 @@ git submodule add https://// Nonetheless this might fail, especially for large sized repositories; I faced [this issue](https://stackoverflow.com/questions/66366582) which I tried to fix by increasing buffer size as reported in the link. This solved the issue but led me to [another problem](https://stackoverflow.com/questions/59282476) which could be solved by degrading HTTP protocol. --- -## Windows Subsystem for Linux + +## Working on Windows + +### Creating a portable launcher + +A simple way to create a portable launcher requiring to source extra variables is by writing a simple batch script exporting or calling another script with the definitions: + +```batch +@echo off + +@REM Add variables to be sourced here such as +@REM set PATH="/path/to/some/dir";%PATH% +@REM ... or call another shared script doing so. +@REM call %~dp0\env + +MyCode.exe +``` + +Because a batch script will keep a console window open, create a VB file with the following + +```vb +Set oShell = CreateObject ("Wscript.Shell") +Dim strArgs +strArgs = "cmd /c MyCode.bat" +oShell.Run strArgs, 0, false +``` + +In the example we assume the program is called `MyCode.exe` and the batch script has been named in an analogous way `MyCode.bat`. Some real world examples are provided [here](https://github.com/wallytutor/WallyToolbox.jl/tree/main/tools). ### Mount a network drive in WSL diff --git a/docs/src/Modules/WallyToolbox/setup-guide.md b/docs/src/Modules/WallyToolbox/setup-guide.md new file mode 100644 index 000000000..7992fe4f5 --- /dev/null +++ b/docs/src/Modules/WallyToolbox/setup-guide.md @@ -0,0 +1,146 @@ +# Setup guide + +You probably ended up here because you are looking for a full working setup of a reasonable computing environment under Windows and that is exactly the goal of this guide: to provide an easy way to setup a portable toolbox for working with scientific computing and development under Windows. It is intended to leave minimal track on host system[^1], but I am not enforcing this in its development, so take care if you are not allowed to execute some software in a given computer. Except for the fact that you will probably want [Microsoft MPI ](https://learn.microsoft.com/en-us/message-passing-interface/microsoft-mpi) to be able to perform parallel computations, everything else can be deployed without administration rights. + +!!! warn + + Notice that this guide is under development and instructions may still be incomplete; do not hesitate to reach me for more detailed instructions. + +[^1]: Probably a few files and directories on your user home directory or under *AppData*. + +## Workflow description + +First of all, you have to clone [WallyToolbox.jl](https://github.com/wallytutor/WallyToolbox.jl) somewhere in the target computer. You can consider using [GitHub Desktop](https://github.com/apps/desktop) at this stage, assuming you do not have Git yet. Everything else we perform here will be done under its [tools/](https://github.com/wallytutor/WallyToolbox.jl/tree/main/tools) directory. Before anything, read all the elements provided below, simply trying to follow them in order will certainly lead to errors or confusion. + +For each of the applications you will install, make sure to perform the following generic steps: + +1. Download the portable (often a compressed file) version of the application; the links to the currently supported applications are provided in the next section. It is recommended to create a `sandbox/` directory under `tools/` to save these files, it is ignored by version control. + +2. If it is a compressed file, inspect it to check whether the software is contained in a compressed directory or if files are straight at the container root; in the later case create a directory with the software name and version under `tools/bin/` and copy the file inside before extraction; otherwise extract it to that same directory. Several packages are stored directly at *zip* roots and that may be messy to clean. Once finished, you can delete the copy of the compressed file to free space. + +3. Under `tools/bin/` you find [source.bat](https://github.com/wallytutor/WallyToolbox.jl/blob/main/tools/bin/source.bat) which is responsible by making sure all the executables may be found in your newly created environment. This file is a batch script and modifying it is the trickiest step of this guide. To open it you cannot *click* the file, but *right-click* and *edit*, as Windows see these as executables. First you need to find the section marked by the comment `@REM NEW SYMBOLS` and identify the variable associated to the software you are trying to install. Modify its value to the name of the directory you just created, that is everything you need to for most software. + +Once you have finished installing everything, comment out all `set PATH` related to software you are not installing; this way you avoid telling the system to search for executables under non-existing directories. Other commands such as `call` to non-existing scripts might break your system. Also remove any `REG ADD` that is not being used. + +Now you can launch the editor with access to the deployed software by clicking [`tools/code.vbs`](https://github.com/wallytutor/WallyToolbox.jl/blob/main/tools/code.vbs). It is recommended you create a symbolic link to this file in your desktop for each of use later, as navigating to this directory every time may be excruciating. + +## Minimal working environment + +These are required to get your system working for the first time. After installing `VS Code`, enable its [portable mode](https://code.visualstudio.com/docs/editor/portable) and install required extensions (Python and Julia support, ...). Also notice that there is a [`tools/vscode/`](https://github.com/wallytutor/WallyToolbox.jl/tree/main/tools/vscode) directory for keeping user configurations in a version controlled way. + +- [VS Code](https://code.visualstudio.com/Download) +- [Git](https://git-scm.com/download/win) +- [Julia](https://julialang.org/downloads/) +- [Python](https://github.com/winpython/winpython/releases) + +From a `VS Code` terminal launched using [code.vbs](https://github.com/wallytutor/WallyToolbox.jl/blob/main/tools/code.vbs) script you can run `wjulia` as an alias to launch the toolbox; notice that launching this way is the only meaningful way to work with the toolbox as described here since that script will set all the required environment variables. + +To be able to use module `WallyToolbox.Notebook` or launch its exported interface for literate programming in the [utilities](utilities.md), an user-defined value of environment variable `JUPYTER_DATA_DIR` must be provided to avoid conflict with system files. It must be noticed that this utility module is intentionally undocumented. + +Python modules are currently second-grade citizens to `WallyToolbox`; they consist mostly of domain-specific code that I did not yet migrate to Julia. Nonetheless, some code will remain in Python because fields such as computer vision and overall machine learning have a much broader community and thus quality tools. Wrapping these in Julia through [PythonCall](https://github.com/JuliaPy/PythonCall.jl) is not considered as an alternative for now. + +```bash +# Install `virtualenv`: +pip install virtualenv + +# Create a virtual environment: +virtualenv venv + +# Alternativelly use built-in `venv`: +# python -m venv venv + +# Activate the environment: +./venv/Scripts/activate + +# Install dependencies, if any: +pip install -r requirements.txt +``` + +## LaTeX and related + +Although LaTeX is not mandatory, it is highly encouraged; otherwise, what is the point of doing any scientific computing and not publishing its results? Also for a fully operational *Jupyter notebook* environment you need both `pandoc` and `inkscape`. + +- [MikTeX](https://miktex.org/howto/portable-edition) +- [texstudio](https://www.texstudio.org/#download) +- [JabRef](https://www.fosshub.com/JabRef.html?dwl=JabRef-5.13.msi) +- [pandoc](https://pandoc.org/installing.html) +- [inkscape](https://inkscape.org/release/inkscape-1.3.2/windows/64-bit/) + +Globally install [`pip install Pygments`](https://pygments.org/) for enabling syntax highlight in LaTeX using `minted`; that is the most flexible highlighting method for adding code snippets to your documents. + +To append to `TEXMF` variable one can use the MiKTeX Console graphical interface and under `Settings > Directories` navigate and select the local path. Alternativelly on can add to `bin//texmfs/install/miktex/config/miktexstartup.ini` a line as + +```ini +CommonRoots=C:/Path/To/Local/TeX/Tree +``` + +pointing to a directory implementing the user's [TeX Directory Structure](https://miktex.org/kb/tds). + +## Domain-specific +### Science and Engineering + +Since these are mostly domain-specific, it is up to you to select from the list. + +- [DualSPHysics](https://dual.sphysics.org/downloads/) +- [Cantera](https://github.com/Cantera/cantera/releases/tag/v3.0.0) +- [CasADi](https://web.casadi.org/get/) +- [DWSIM](https://dwsim.org/index.php/download/) +- [ElmerFEM](https://www.nic.funet.fi/pub/sci/physics/elmer/bin/windows/) +- [FreeFem++](https://github.com/FreeFem/FreeFem-sources/releases) +- [LAMMPS](https://packages.lammps.org/windows.html) +- [OpenModelica](https://openmodelica.org/download/download-windows/) +- [SU2](https://su2code.github.io/download.html) + +For DualSPHysics one might also want to install [this FreeCAD addon](https://github.com/DualSPHysics/DesignSPHysics) and [this Blender addon](https://github.com/EPhysLab-UVigo/VisualSPHysics). + +Read comments in [`tools/bin/source.bat`](https://github.com/wallytutor/WallyToolbox.jl/blob/main/tools/bin/source.bat) for additional instructions, *e.g.* how to setup a Frankenstein LAMMPS installation. It requires a good familiarity with the inner workings of software and libraries; in the future I will reach LAMMPS maintainers to make this simpler and part of the official releases. + +### Geometry and preprocessing + +Again some domain-specific software, select what you need. + +- [Blender](https://www.blender.org/download/) +- [FreeCAD](https://www.freecad.org/downloads.php) +- [gmsh](https://gmsh.info/#Download) +- [gnuplot](https://sourceforge.net/projects/gnuplot/files/gnuplot/6.0.0/) +- [ParaView](https://www.paraview.org/download/) +- [Salome](https://www.salome-platform.org/?page_id=2430) + +### Additional languages + +It is highly discouraged to use Octave for any large project, but it might be interesting to use it for teaching linear algebra and the basics of numerical mathematics, so it is also supported. + +- [Octave](https://octave.org/download) + +## Possible roadmap + +- 7-zip +- Dyssol +- Fiji +- FileZilla +- Ipopt +- lazarus +- MSYS2 +- MUSEN +- Notepad +- nteract +- nvim +- OpenCALPHAD +- Orange3 +- puTTy +- Scilab +- strawberry-perl +- Tabby +- ZeroBraneStudio + +## Documentation build + +Documentation is generated by a GitHub Actions workflow at every commit to the main branch. Because of the multiple modules in a repository structure, this documentation follows *intrinsically* a rolling release logic. Because the package and modules are not registered, they also do not appear in the `docs/Project.toml`. So it is up to the maintainers to ensure that section `[deps]` of `docs/Project.toml` points to **ALL** dependencies of **ALL** sub-packages. + +For generating the documentation locally, run `julia --project=docs/` and in REPL run the following command: + +```repl +julia> include("docs/make.jl") + Resolving package versions... + ... +``` diff --git a/docs/src/index.md b/docs/src/index.md index a35370366..6344ee384 100644 --- a/docs/src/index.md +++ b/docs/src/index.md @@ -8,53 +8,19 @@ My name is [Walter (CV)](https://github.com/wallytutor/WallyToolbox.jl/tree/main During the years I tried to different formats to organize my study materials and working tools, but it was only recently that I realized that coupling my knowledge base with the documentation of my personal code was the best approach in terms of maintenance. Obviously I cannot migrate all the content I have ever produced here at once, so my decision was to restructure everything and have a fresh start, feeding content as required, *i.e.* somebody asked me a hand in a certain subject or I need to refresh certain skill at work. In this page you will also find the supporting materials of my Medium [articles](https://medium.com/@waltermateriais) and some additional content. -The core package of `WallyToolbox` ecosystem provides shared functionalities and types that are used in more specialized packages. It is an unpublished rolling release package composed of several sub-modules not making part of the main package and currently not following any versioning semantics. That means that new features are added and only the commits track differences. Its main goal is to provide a portable working environment that runs smoothly (at least) under Windows; anyone working in the numerical world knows the struggle with IT to have a proper Linux working system, especially in a portable device. +The core package of `WallyToolbox` ecosystem provides shared functionalities and types that are used in more specialized packages. It is an unpublished rolling release package composed of several sub-modules not making part of the main one and currently not following any versioning semantics. That means that new features are added and only the commits track differences. Its main goal is to provide a portable working environment that runs smoothly (at least) under Windows; anyone working in the numerical world knows the struggle with IT to have a proper Linux working system, especially in a portable device. -This allows for standardization of interfaces, employed quantities, and avoid boilerplate code. This page organizes everything to facilitate the understanding of the end-user. +This unification over a central package allows for standardization of interfaces, employed quantities, and avoid boilerplate code. This page organizes everything (or tries to) to facilitate the understanding of the end-user. !!! info - Over the time it is expected that many functionalities from other modules will integrate `WallyToolbox` as they become stable. In some cases, entire modules may become sub-modules, so you might need to check where to import some utilities as this package is rolling release. This is temporary and will be modified when all the old code base that is giving origing to the package is migrated here. Nonetheless, the package will probably not be published to Julia registries because of the way its governance works. `WallyToolbox.jl` tries to be self-contained in several aspects because of the needs of perfect integration between functionalities of several of its foreseen end applications. That is currently incompatible with using some of the state-of-the-art packages from Julia ecosystem. + Over the time it is expected that many functionalities from other modules will integrate `WallyToolbox` as they become stable. In some cases, entire modules may become sub-modules on integrated directly under `WallyToolbox`, so you might need to check where to import some utilities as this package is rolling release. This is temporary and will be modified when all the old code base that is giving origing to the package is migrated here, what will take me a few years. Nonetheless, the package will probably not be published to Julia registries because of the way its governance works. `WallyToolbox.jl` tries to be self-contained in several aspects because of the needs of perfect integration between functionalities of several of its foreseen end applications. That is currently incompatible with using some of the state-of-the-art packages from Julia ecosystem. ## Using the modules -The simplest way to use `WallyToolbox` is by launching Julia the root directory of `WallyToolbox.jl` as a project; this way one has access to most Julia modules packaged within the toolbox. Notice that for a full availability one needs to consider the extra steps provided in the [setup guide](setup-guide.md). To be able to use module `WallyToolbox.Notebook`, an user-defined value of environment variable `JUPYTER_DATA_DIR` must be provided to avoid conflict with system files. It must be noticed that this utility module is undocumented. . - -```bash -julia --project=. -``` - -Python modules are currently second-grade citizens to `WallyToolbox`; they consist mostly of domain-specific code that I did not yet migrate to Julia. Nonetheless, some code will remain in Python because fields such as computer vision and overall machine learning have a much broader community and thus quality tools. Wrapping these in Julia through [PythonCall](https://github.com/JuliaPy/PythonCall.jl) is not considered as an alternative for now. - -```bash -# Install `virtualenv`: -pip install virtualenv - -# Alternativelly use built-in `venv`: -# python -m venv venv - -# Create a virtual environment: -virtualenv venv - -# Activate the environment: -./venv/Scripts/activate - -# Install dependencies, if any: -pip install -r requirements.txt -``` - -## Documentation build - -Documentation is generated by a GitHub Actions workflow at every commit to the main branch. Because of the multiple modules in a repository structure, this documentation follows *intrinsically* a rolling release logic. Because the package and modules are not registered, they also do not appear in the `docs/Project.toml`. So it is up to the maintainers to ensure that section `[deps]` of `docs/Project.toml` points to **ALL** dependencies of **ALL** subpackages. - -For generating the documentation locally, run `julia --project=docs/` and in REPL run the following command: - -```repl -julia> include("docs/make.jl") - Resolving package versions... - ... -``` +The simplest way to use `WallyToolbox` is by launching Julia the root directory of `WallyToolbox.jl` as a project from command line, such as `julia --project=.`[^1]; this way one has access to most Julia modules packaged within the toolbox. Notice that for a full availability one needs to consider the extra steps provided in the [setup guide](Modules/WallyToolbox/setup-guide.md), which is the preferred way to deploy a working system with `WallyToolbox`. +[^1]: You might need to enter `pkg` mode and instantiate the project to get all dependencies installed. You can find more about this [here](https://docs.julialang.org/en/v1/stdlib/Pkg/). ## Contact and citing For quick questions and proposals, please prefer [Zulip Chat](https://wallytutor.zulipchat.com). If you found and error or bug, please [create an issue](https://github.com/wallytutor/WallyToolbox.jl/issues). That will make me more efficient at handling everything. If none of those work for you, you can contact me by [mail](mailto:walter.dalmazsilva.manager@gmail.com). diff --git a/docs/src/setup-guide.md b/docs/src/setup-guide.md deleted file mode 100644 index fdc01ae66..000000000 --- a/docs/src/setup-guide.md +++ /dev/null @@ -1,94 +0,0 @@ -# Setup guide - -The goal of this directory is to provide an easy way to setup a portable toolbox for working with scientific computing and development under Windows. It is intended to leave minimal track on host system, but I am not enforcing this in its development, so take care if you are not allowed to execute some software in a given computer. - -## Tools - -- [VS Code](https://code.visualstudio.com/Download) -- [Git](https://git-scm.com/download/win) - -- [Julia](https://julialang.org/downloads/) -- [Python](https://github.com/winpython/winpython/releases) -- [Octave](https://octave.org/download) - -- [MikTeX](https://miktex.org/howto/portable-edition) -- [texstudio](https://www.texstudio.org/#download) -- [JabRef](https://www.fosshub.com/JabRef.html?dwl=JabRef-5.13.msi) - -- [Cantera](https://github.com/Cantera/cantera/releases/tag/v3.0.0) -- [CasADi](https://web.casadi.org/get/) -- [DWSIM](https://dwsim.org/index.php/download/) -- [ElmerFEM](https://www.nic.funet.fi/pub/sci/physics/elmer/bin/windows/) -- [FreeFem++](https://github.com/FreeFem/FreeFem-sources/releases) -- [LAMMPS](https://packages.lammps.org/windows.html) -- [OpenModelica](https://openmodelica.org/download/download-windows/) -- [SU2](https://su2code.github.io/download.html) - -- [Blender](https://www.blender.org/download/) -- [DualSPHysics](https://dual.sphysics.org/downloads/) -- [FreeCAD](https://www.freecad.org/downloads.php) -- [gmsh](https://gmsh.info/#Download) -- [gnuplot](https://sourceforge.net/projects/gnuplot/files/gnuplot/6.0.0/) -- [inkscape](https://inkscape.org/release/inkscape-1.3.2/windows/64-bit/) -- [ParaView](https://www.paraview.org/download/) -- [Salome](https://www.salome-platform.org/?page_id=2430) - -For DualSPHysics one might also want to install [this FreeCAD addon](https://github.com/DualSPHysics/DesignSPHysics) and [this Blender addon](https://github.com/EPhysLab-UVigo/VisualSPHysics). - -### Optional deployments - -- [7-zip]() -- [Dyssol]() -- [Fiji]() -- [FileZilla]() -- [Ipopt]() -- [lazarus]() -- [MUSEN]() -- [nteract]() -- [nvim]() -- [OpenCALPHAD]() -- [Orange3]() -- [pandoc]() -- [puTTy]() -- [Scilab]() -- [strawberry-perl]() -- [ZeroBraneStudio]() - -### Still thinking about - -- [Tabby]() -- [MSYS2]() -- [Notepad++] - -## Setup of environment - -- Extract downloaded software to their own directories; right-click the compressed packages and select the option to select to a directory (some software are compressed directly to the root of the file and can make a mess otherwise). - -- Enable VSCode [portable mode](https://code.visualstudio.com/docs/editor/portable) and install required extensions (Python and Julia support, ...). - -- Read comments in [bin/source.bat](bin/source.bat) for additional instructions, *e.g.* how to setup a Frankenstein LAMMPS installation. - -- Globally install [`pip install Pygments`](https://pygments.org/) for enabling syntax highlight in LaTeX using `minted`. - -## Creating a launcher - -```batch -@echo off -call %~dp0\env -Code.exe -``` - -```vb -Set oShell = CreateObject ("Wscript.Shell") -Dim strArgs -strArgs = "cmd /c bin\Code.bat" -oShell.Run strArgs, 0, false -``` - -## MiKTeX tweaks - -To append `TEXMF` variable one can use the MiKTeX Console graphical interface and under `Settings > Directories` navigate and select the local path. Alternativelly on can add to `bin//texmfs/install/miktex/config/miktexstartup.ini` a line as - -```ini -CommonRoots=C:/Path/To/Local/TeX/Tree -```