{ stdenv , lib , fetchurl , buildPythonPackage , isPy3k, pythonOlder, pythonAtLeast, astor , gast , google-pasta , wrapt , numpy , six , termcolor , packaging , protobuf , absl-py , grpcio , mock , scipy , wheel , opt-einsum , backports_weakref , tensorflow-estimator , tensorboard , cudaSupport ? false , cudaPackages ? {} , patchelfUnstable , zlib , python , keras-applications , keras-preprocessing , addOpenGLRunpath , astunparse , flatbuffers , h5py , typing-extensions }: # We keep this binary build for two reasons: # - the source build doesn't work on Darwin. # - the source build is currently brittle and not easy to maintain # unsupported combination assert ! (stdenv.isDarwin && cudaSupport); let packages = import ./binary-hashes.nix; inherit (cudaPackages) cudatoolkit cudnn; in buildPythonPackage { pname = "tensorflow" + lib.optionalString cudaSupport "-gpu"; inherit (packages) version; format = "wheel"; # Python 3.11 still unsupported disabled = pythonAtLeast "3.11"; src = let pyVerNoDot = lib.strings.stringAsChars (x: if x == "." then "" else x) python.pythonVersion; platform = if stdenv.isDarwin then "mac" else "linux"; unit = if cudaSupport then "gpu" else "cpu"; key = "${platform}_py_${pyVerNoDot}_${unit}"; in fetchurl packages.${key}; propagatedBuildInputs = [ astunparse flatbuffers typing-extensions packaging protobuf numpy scipy termcolor grpcio six astor absl-py gast opt-einsum google-pasta wrapt tensorflow-estimator tensorboard keras-applications keras-preprocessing h5py ] ++ lib.optional (!isPy3k) mock ++ lib.optionals (pythonOlder "3.4") [ backports_weakref ]; # remove patchelfUnstable once patchelf 0.14 with https://github.com/NixOS/patchelf/pull/256 becomes the default nativeBuildInputs = [ wheel ] ++ lib.optionals cudaSupport [ addOpenGLRunpath patchelfUnstable ]; preConfigure = '' unset SOURCE_DATE_EPOCH # Make sure that dist and the wheel file are writable. chmod u+rwx -R ./dist pushd dist orig_name="$(echo ./*.whl)" wheel unpack --dest unpacked ./*.whl rm ./*.whl ( cd unpacked/tensorflow* # Adjust dependency requirements: # - Relax flatbuffers, gast, protobuf, tensorboard, and tensorflow-estimator version requirements that don't match what we have packaged # - The purpose of python3Packages.libclang is not clear at the moment and we don't have it packaged yet # - keras and tensorlow-io-gcs-filesystem will be considered as optional for now. sed -i *.dist-info/METADATA \ -e "/Requires-Dist: flatbuffers/d" \ -e "/Requires-Dist: gast/d" \ -e "/Requires-Dist: keras/d" \ -e "/Requires-Dist: libclang/d" \ -e "/Requires-Dist: protobuf/d" \ -e "/Requires-Dist: tensorboard/d" \ -e "/Requires-Dist: tensorflow-estimator/d" \ -e "/Requires-Dist: tensorflow-io-gcs-filesystem/d" ) wheel pack ./unpacked/tensorflow* mv *.whl $orig_name # avoid changes to the _os_arch.whl suffix popd ''; # Note that we need to run *after* the fixup phase because the # libraries are loaded at runtime. If we run in preFixup then # patchelf --shrink-rpath will remove the cuda libraries. postFixup = let # rpaths we only need to add if CUDA is enabled. cudapaths = lib.optionals cudaSupport [ cudatoolkit.out cudatoolkit.lib cudnn ]; libpaths = [ stdenv.cc.cc.lib zlib ]; rpath = lib.makeLibraryPath (libpaths ++ cudapaths); in lib.optionalString stdenv.isLinux '' # This is an array containing all the directories in the tensorflow2 # package that contain .so files. # # TODO: Create this list programmatically, and remove paths that aren't # actually needed. rrPathArr=( "$out/${python.sitePackages}/tensorflow/" "$out/${python.sitePackages}/tensorflow/core/kernels" "$out/${python.sitePackages}/tensorflow/compiler/tf2tensorrt/" "$out/${python.sitePackages}/tensorflow/compiler/tf2xla/ops/" "$out/${python.sitePackages}/tensorflow/lite/experimental/microfrontend/python/ops/" "$out/${python.sitePackages}/tensorflow/lite/python/interpreter_wrapper/" "$out/${python.sitePackages}/tensorflow/lite/python/optimize/" "$out/${python.sitePackages}/tensorflow/python/" "$out/${python.sitePackages}/tensorflow/python/framework/" "$out/${python.sitePackages}/tensorflow/python/autograph/impl/testing" "$out/${python.sitePackages}/tensorflow/python/data/experimental/service" "$out/${python.sitePackages}/tensorflow/python/framework" "$out/${python.sitePackages}/tensorflow/python/profiler/internal" "${rpath}" ) # The the bash array into a colon-separated list of RPATHs. rrPath=$(IFS=$':'; echo "''${rrPathArr[*]}") echo "about to run patchelf with the following rpath: $rrPath" find $out -type f \( -name '*.so' -or -name '*.so.*' \) | while read lib; do echo "about to patchelf $lib..." chmod a+rx "$lib" patchelf --set-rpath "$rrPath" "$lib" ${lib.optionalString cudaSupport '' addOpenGLRunpath "$lib" ''} done ''; # Upstream has a pip hack that results in bin/tensorboard being in both tensorflow # and the propagated input tensorboard, which causes environment collisions. # Another possibility would be to have tensorboard only in the buildInputs # See https://github.com/NixOS/nixpkgs/pull/44381 for more information. postInstall = '' rm $out/bin/tensorboard ''; pythonImportsCheck = [ "tensorflow" "tensorflow.python" "tensorflow.python.framework" ]; passthru = { inherit cudaPackages; }; meta = with lib; { description = "Computation using data flow graphs for scalable machine learning"; homepage = "http://tensorflow.org"; sourceProvenance = with sourceTypes; [ binaryNativeCode ]; license = licenses.asl20; maintainers = with maintainers; [ jyp abbradar cdepillabout ]; platforms = [ "x86_64-linux" "x86_64-darwin" ]; }; }