nixpkgs-suyu/doc/languages-frameworks/texlive.section.md
Ryan Mulligan b8344f9e5c doc: explicit Markdown anchors for top-level headings; remove metadata
I used the existing anchors generated by Docbook, so the anchor part
should be a no-op. This could be useful depending on the
infrastructure we choose to use, and it is better to be explicit than
rely on Docbook's id generating algorithms.

I got rid of the metadata segments of the Markdown files, because they
are outdated, inaccurate, and could make people less willing to change
them without speaking with the author.
2021-01-01 10:02:57 -08:00

3.5 KiB

TeX Live

Since release 15.09 there is a new TeX Live packaging that lives entirely under attribute texlive.

User's guide

  • For basic usage just pull texlive.combined.scheme-basic for an environment with basic LaTeX support.

  • It typically won't work to use separately installed packages together. Instead, you can build a custom set of packages like this:

    texlive.combine {
      inherit (texlive) scheme-small collection-langkorean algorithms cm-super;
    }
    
  • There are all the schemes, collections and a few thousand packages, as defined upstream (perhaps with tiny differences).

  • By default you only get executables and files needed during runtime, and a little documentation for the core packages. To change that, you need to add pkgFilter function to combine.

    texlive.combine {
      # inherit (texlive) whatever-you-want;
      pkgFilter = pkg:
        pkg.tlType == "run" || pkg.tlType == "bin" || pkg.pname == "cm-super";
      # elem tlType [ "run" "bin" "doc" "source" ]
      # there are also other attributes: version, name
    }
    
  • You can list packages e.g. by nix repl.

    $ nix repl
    nix-repl> :l <nixpkgs>
    nix-repl> texlive.collection-[TAB]
    
  • Note that the wrapper assumes that the result has a chance to be useful. For example, the core executables should be present, as well as some core data files. The supported way of ensuring this is by including some scheme, for example scheme-basic, into the combination.

Custom packages

You may find that you need to use an external TeX package. A derivation for such package has to provide contents of the "texmf" directory in its output and provide the tlType attribute. Here is a (very verbose) example:

with import <nixpkgs> {};

let
  foiltex_run = stdenvNoCC.mkDerivation {
    pname = "latex-foiltex";
    version = "2.1.4b";
    passthru.tlType = "run";

    srcs = [
      (fetchurl {
        url = "http://mirrors.ctan.org/macros/latex/contrib/foiltex/foiltex.dtx";
        sha256 = "07frz0krpz7kkcwlayrwrj2a2pixmv0icbngyw92srp9fp23cqpz";
      })
      (fetchurl {
        url = "http://mirrors.ctan.org/macros/latex/contrib/foiltex/foiltex.ins";
        sha256 = "09wkyidxk3n3zvqxfs61wlypmbhi1pxmjdi1kns9n2ky8ykbff99";
      })
    ];

    unpackPhase = ''
      runHook preUnpack

      for _src in $srcs; do
        cp "$_src" $(stripHash "$_src")
      done

      runHook postUnpack
    '';

    nativeBuildInputs = [ texlive.combined.scheme-small ];

    dontConfigure = true;

    buildPhase = ''
      runHook preBuild

      # Generate the style files
      latex foiltex.ins

      runHook postBuild
    '';

    installPhase = ''
      runHook preInstall

      path="$out/tex/latex/foiltex"
      mkdir -p "$path"
      cp *.{cls,def,clo} "$path/"

      runHook postInstall
    '';

    meta = with lib; {
      description = "A LaTeX2e class for overhead transparencies";
      license = licenses.unfreeRedistributable;
      maintainers = with maintainers; [ veprbl ];
      platforms = platforms.all;
    };
  };
  foiltex = { pkgs = [ foiltex_run ]; };

  latex_with_foiltex = texlive.combine {
    inherit (texlive) scheme-small;
    inherit foiltex;
  };
in
  runCommand "test.pdf" {
    nativeBuildInputs = [ latex_with_foiltex ];
  } ''
cat >test.tex <<EOF
\documentclass{foils}

\title{Presentation title}
\date{}

\begin{document}
\maketitle
\end{document}
EOF
  pdflatex test.tex
  cp test.pdf $out
''