eec765f9e6
Introduce an internal function for them to share more behavior. This makes future changes easier.
887 lines
37 KiB
Nix
887 lines
37 KiB
Nix
{ lib ? import ../. }:
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let
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inherit (builtins)
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isAttrs
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isPath
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isString
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pathExists
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readDir
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split
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trace
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typeOf
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fetchGit
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;
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inherit (lib.attrsets)
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attrNames
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attrValues
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mapAttrs
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zipAttrsWith
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;
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inherit (lib.filesystem)
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pathType
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;
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inherit (lib.lists)
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all
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commonPrefix
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elemAt
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filter
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findFirst
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findFirstIndex
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foldl'
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head
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length
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sublist
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tail
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;
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inherit (lib.path)
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append
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splitRoot
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;
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inherit (lib.path.subpath)
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components
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join
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;
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inherit (lib.strings)
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isStringLike
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concatStringsSep
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substring
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stringLength
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hasSuffix
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;
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inherit (lib.trivial)
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inPureEvalMode
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;
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in
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# Rare case of justified usage of rec:
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# - This file is internal, so the return value doesn't matter, no need to make things overridable
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# - The functions depend on each other
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# - We want to expose all of these functions for easy testing
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rec {
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# If you change the internal representation, make sure to:
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# - Increment this version
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# - Add an additional migration function below
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# - Update the description of the internal representation in ./README.md
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_currentVersion = 3;
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# Migrations between versions. The 0th element converts from v0 to v1, and so on
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migrations = [
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# Convert v0 into v1: Add the _internalBase{Root,Components} attributes
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(
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filesetV0:
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let
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parts = splitRoot filesetV0._internalBase;
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in
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filesetV0 // {
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_internalVersion = 1;
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_internalBaseRoot = parts.root;
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_internalBaseComponents = components parts.subpath;
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}
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)
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# Convert v1 into v2: filesetTree's can now also omit attributes to signal paths not being included
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(
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filesetV1:
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# This change is backwards compatible (but not forwards compatible, so we still need a new version)
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filesetV1 // {
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_internalVersion = 2;
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}
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)
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# Convert v2 into v3: filesetTree's now have a representation for an empty file set without a base path
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(
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filesetV2:
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filesetV2 // {
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# All v1 file sets are not the new empty file set
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_internalIsEmptyWithoutBase = false;
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_internalVersion = 3;
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}
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)
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];
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_noEvalMessage = ''
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lib.fileset: Directly evaluating a file set is not supported.
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To turn it into a usable source, use `lib.fileset.toSource`.
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To pretty-print the contents, use `lib.fileset.trace` or `lib.fileset.traceVal`.'';
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# The empty file set without a base path
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_emptyWithoutBase = {
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_type = "fileset";
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_internalVersion = _currentVersion;
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# The one and only!
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_internalIsEmptyWithoutBase = true;
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# Due to alphabetical ordering, this is evaluated last,
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# which makes the nix repl output nicer than if it would be ordered first.
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# It also allows evaluating it strictly up to this error, which could be useful
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_noEval = throw _noEvalMessage;
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};
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# Create a fileset, see ./README.md#fileset
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# Type: path -> filesetTree -> fileset
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_create = base: tree:
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let
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# Decompose the base into its components
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# See ../path/README.md for why we're not just using `toString`
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parts = splitRoot base;
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in
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{
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_type = "fileset";
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_internalVersion = _currentVersion;
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_internalIsEmptyWithoutBase = false;
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_internalBase = base;
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_internalBaseRoot = parts.root;
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_internalBaseComponents = components parts.subpath;
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_internalTree = tree;
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# Due to alphabetical ordering, this is evaluated last,
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# which makes the nix repl output nicer than if it would be ordered first.
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# It also allows evaluating it strictly up to this error, which could be useful
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_noEval = throw _noEvalMessage;
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};
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# Coerce a value to a fileset, erroring when the value cannot be coerced.
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# The string gives the context for error messages.
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# Type: String -> (fileset | Path) -> fileset
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_coerce = context: value:
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if value._type or "" == "fileset" then
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if value._internalVersion > _currentVersion then
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throw ''
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${context} is a file set created from a future version of the file set library with a different internal representation:
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- Internal version of the file set: ${toString value._internalVersion}
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- Internal version of the library: ${toString _currentVersion}
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Make sure to update your Nixpkgs to have a newer version of `lib.fileset`.''
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else if value._internalVersion < _currentVersion then
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let
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# Get all the migration functions necessary to convert from the old to the current version
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migrationsToApply = sublist value._internalVersion (_currentVersion - value._internalVersion) migrations;
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in
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foldl' (value: migration: migration value) value migrationsToApply
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else
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value
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else if ! isPath value then
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if value ? _isLibCleanSourceWith then
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throw ''
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${context} is a `lib.sources`-based value, but it should be a file set or a path instead.
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To convert a `lib.sources`-based value to a file set you can use `lib.fileset.fromSource`.
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Note that this only works for sources created from paths.''
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else if isStringLike value then
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throw ''
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${context} ("${toString value}") is a string-like value, but it should be a file set or a path instead.
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Paths represented as strings are not supported by `lib.fileset`, use `lib.sources` or derivations instead.''
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else
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throw ''
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${context} is of type ${typeOf value}, but it should be a file set or a path instead.''
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else if ! pathExists value then
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throw ''
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${context} (${toString value}) is a path that does not exist.
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To create a file set from a path that may not exist, use `lib.fileset.maybeMissing`.''
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else
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_singleton value;
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# Coerce many values to filesets, erroring when any value cannot be coerced,
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# or if the filesystem root of the values doesn't match.
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# Type: String -> [ { context :: String, value :: fileset | Path } ] -> [ fileset ]
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_coerceMany = functionContext: list:
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let
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filesets = map ({ context, value }:
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_coerce "${functionContext}: ${context}" value
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) list;
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# Find the first value with a base, there may be none!
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firstWithBase = findFirst (fileset: ! fileset._internalIsEmptyWithoutBase) null filesets;
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# This value is only accessed if first != null
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firstBaseRoot = firstWithBase._internalBaseRoot;
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# Finds the first element with a filesystem root different than the first element, if any
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differentIndex = findFirstIndex (fileset:
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# The empty value without a base doesn't have a base path
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! fileset._internalIsEmptyWithoutBase
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&& firstBaseRoot != fileset._internalBaseRoot
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) null filesets;
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in
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# Only evaluates `differentIndex` if there are any elements with a base
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if firstWithBase != null && differentIndex != null then
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throw ''
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${functionContext}: Filesystem roots are not the same:
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${(head list).context}: Filesystem root is "${toString firstBaseRoot}"
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${(elemAt list differentIndex).context}: Filesystem root is "${toString (elemAt filesets differentIndex)._internalBaseRoot}"
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Different filesystem roots are not supported.''
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else
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filesets;
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# Create a file set from a path.
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# Type: Path -> fileset
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_singleton = path:
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let
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type = pathType path;
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in
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if type == "directory" then
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_create path type
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else
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# This turns a file path ./default.nix into a fileset with
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# - _internalBase: ./.
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# - _internalTree: {
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# "default.nix" = <type>;
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# }
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# See ./README.md#single-files
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_create (dirOf path)
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{
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${baseNameOf path} = type;
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};
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# Expand a directory representation to an equivalent one in attribute set form.
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# All directory entries are included in the result.
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# Type: Path -> filesetTree -> { <name> = filesetTree; }
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_directoryEntries = path: value:
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if value == "directory" then
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readDir path
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else
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# Set all entries not present to null
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mapAttrs (name: value: null) (readDir path)
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// value;
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/*
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A normalisation of a filesetTree suitable filtering with `builtins.path`:
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- Replace all directories that have no files with `null`.
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This removes directories that would be empty
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- Replace all directories with all files with `"directory"`.
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This speeds up the source filter function
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Note that this function is strict, it evaluates the entire tree
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Type: Path -> filesetTree -> filesetTree
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*/
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_normaliseTreeFilter = path: tree:
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if tree == "directory" || isAttrs tree then
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let
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entries = _directoryEntries path tree;
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normalisedSubtrees = mapAttrs (name: _normaliseTreeFilter (path + "/${name}")) entries;
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subtreeValues = attrValues normalisedSubtrees;
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in
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# This triggers either when all files in a directory are filtered out
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# Or when the directory doesn't contain any files at all
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if all isNull subtreeValues then
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null
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# Triggers when we have the same as a `readDir path`, so we can turn it back into an equivalent "directory".
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else if all isString subtreeValues then
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"directory"
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else
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normalisedSubtrees
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else
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tree;
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/*
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A minimal normalisation of a filesetTree, intended for pretty-printing:
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- If all children of a path are recursively included or empty directories, the path itself is also recursively included
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- If all children of a path are fully excluded or empty directories, the path itself is an empty directory
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- Other empty directories are represented with the special "emptyDir" string
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While these could be replaced with `null`, that would take another mapAttrs
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Note that this function is partially lazy.
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Type: Path -> filesetTree -> filesetTree (with "emptyDir"'s)
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*/
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_normaliseTreeMinimal = path: tree:
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if tree == "directory" || isAttrs tree then
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let
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entries = _directoryEntries path tree;
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normalisedSubtrees = mapAttrs (name: _normaliseTreeMinimal (path + "/${name}")) entries;
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subtreeValues = attrValues normalisedSubtrees;
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in
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# If there are no entries, or all entries are empty directories, return "emptyDir".
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# After this branch we know that there's at least one file
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if all (value: value == "emptyDir") subtreeValues then
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"emptyDir"
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# If all subtrees are fully included or empty directories
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# (both of which are coincidentally represented as strings), return "directory".
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# This takes advantage of the fact that empty directories can be represented as included directories.
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# Note that the tree == "directory" check allows avoiding recursion
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else if tree == "directory" || all (value: isString value) subtreeValues then
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"directory"
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# If all subtrees are fully excluded or empty directories, return null.
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# This takes advantage of the fact that empty directories can be represented as excluded directories
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else if all (value: isNull value || value == "emptyDir") subtreeValues then
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null
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# Mix of included and excluded entries
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else
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normalisedSubtrees
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else
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tree;
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# Trace a filesetTree in a pretty way when the resulting value is evaluated.
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# This can handle both normal filesetTree's, and ones returned from _normaliseTreeMinimal
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# Type: Path -> filesetTree (with "emptyDir"'s) -> Null
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_printMinimalTree = base: tree:
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let
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treeSuffix = tree:
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if isAttrs tree then
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""
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else if tree == "directory" then
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" (all files in directory)"
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else
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# This does "leak" the file type strings of the internal representation,
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# but this is the main reason these file type strings even are in the representation!
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# TODO: Consider removing that information from the internal representation for performance.
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# The file types can still be printed by querying them only during tracing
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" (${tree})";
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# Only for attribute set trees
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traceTreeAttrs = prevLine: indent: tree:
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foldl' (prevLine: name:
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let
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subtree = tree.${name};
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# Evaluating this prints the line for this subtree
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thisLine =
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trace "${indent}- ${name}${treeSuffix subtree}" prevLine;
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in
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if subtree == null || subtree == "emptyDir" then
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# Don't print anything at all if this subtree is empty
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prevLine
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else if isAttrs subtree then
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# A directory with explicit entries
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# Do print this node, but also recurse
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traceTreeAttrs thisLine "${indent} " subtree
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else
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# Either a file, or a recursively included directory
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# Do print this node but no further recursion needed
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thisLine
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) prevLine (attrNames tree);
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# Evaluating this will print the first line
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firstLine =
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if tree == null || tree == "emptyDir" then
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trace "(empty)" null
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else
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trace "${toString base}${treeSuffix tree}" null;
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in
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if isAttrs tree then
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traceTreeAttrs firstLine "" tree
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else
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firstLine;
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# Pretty-print a file set in a pretty way when the resulting value is evaluated
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# Type: fileset -> Null
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_printFileset = fileset:
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if fileset._internalIsEmptyWithoutBase then
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trace "(empty)" null
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else
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_printMinimalTree fileset._internalBase
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(_normaliseTreeMinimal fileset._internalBase fileset._internalTree);
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# Turn a fileset into a source filter function suitable for `builtins.path`
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# Only directories recursively containing at least one files are recursed into
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# Type: fileset -> (String -> String -> Bool)
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_toSourceFilter = fileset:
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let
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# Simplify the tree, necessary to make sure all empty directories are null
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# which has the effect that they aren't included in the result
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tree = _normaliseTreeFilter fileset._internalBase fileset._internalTree;
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# The base path as a string with a single trailing slash
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baseString =
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if fileset._internalBaseComponents == [] then
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# Need to handle the filesystem root specially
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"/"
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else
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"/" + concatStringsSep "/" fileset._internalBaseComponents + "/";
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baseLength = stringLength baseString;
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# Check whether a list of path components under the base path exists in the tree.
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# This function is called often, so it should be fast.
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# Type: [ String ] -> Bool
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inTree = components:
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let
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recurse = index: localTree:
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if isAttrs localTree then
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# We have an attribute set, meaning this is a directory with at least one file
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if index >= length components then
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# The path may have no more components though, meaning the filter is running on the directory itself,
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# so we always include it, again because there's at least one file in it.
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true
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else
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# If we do have more components, the filter runs on some entry inside this directory, so we need to recurse
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# We do +2 because builtins.split is an interleaved list of the inbetweens and the matches
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recurse (index + 2) localTree.${elemAt components index}
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else
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# If it's not an attribute set it can only be either null (in which case it's not included)
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# or a string ("directory" or "regular", etc.) in which case it's included
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localTree != null;
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in recurse 0 tree;
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# Filter suited when there's no files
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empty = _: _: false;
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# Filter suited when there's some files
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# This can't be used for when there's no files, because the base directory is always included
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nonEmpty =
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path: type:
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let
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# Add a slash to the path string, turning "/foo" to "/foo/",
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# making sure to not have any false prefix matches below.
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# Note that this would produce "//" for "/",
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# but builtins.path doesn't call the filter function on the `path` argument itself,
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# meaning this function can never receive "/" as an argument
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pathSlash = path + "/";
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in
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(
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# Same as `hasPrefix pathSlash baseString`, but more efficient.
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# With base /foo/bar we need to include /foo:
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# hasPrefix "/foo/" "/foo/bar/"
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if substring 0 (stringLength pathSlash) baseString == pathSlash then
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true
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# Same as `! hasPrefix baseString pathSlash`, but more efficient.
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# With base /foo/bar we need to exclude /baz
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# ! hasPrefix "/baz/" "/foo/bar/"
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else if substring 0 baseLength pathSlash != baseString then
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false
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else
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# Same as `removePrefix baseString path`, but more efficient.
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# From the above code we know that hasPrefix baseString pathSlash holds, so this is safe.
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# We don't use pathSlash here because we only needed the trailing slash for the prefix matching.
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# With base /foo and path /foo/bar/baz this gives
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# inTree (split "/" (removePrefix "/foo/" "/foo/bar/baz"))
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# == inTree (split "/" "bar/baz")
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# == inTree [ "bar" "baz" ]
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inTree (split "/" (substring baseLength (-1) path))
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)
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# This is a way have an additional check in case the above is true without any significant performance cost
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&& (
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# This relies on the fact that Nix only distinguishes path types "directory", "regular", "symlink" and "unknown",
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# so everything except "unknown" is allowed, seems reasonable to rely on that
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type != "unknown"
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|| throw ''
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lib.fileset.toSource: `fileset` contains a file that cannot be added to the store: ${path}
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This file is neither a regular file nor a symlink, the only file types supported by the Nix store.
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Therefore the file set cannot be added to the Nix store as is. Make sure to not include that file to avoid this error.''
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);
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in
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# Special case because the code below assumes that the _internalBase is always included in the result
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# which shouldn't be done when we have no files at all in the base
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# This also forces the tree before returning the filter, leads to earlier error messages
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if fileset._internalIsEmptyWithoutBase || tree == null then
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empty
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else
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nonEmpty;
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# Turn a builtins.filterSource-based source filter on a root path into a file set
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# containing only files included by the filter.
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# The filter is lazily called as necessary to determine whether paths are included
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# Type: Path -> (String -> String -> Bool) -> fileset
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_fromSourceFilter = root: sourceFilter:
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let
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# During the recursion we need to track both:
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# - The path value such that we can safely call `readDir` on it
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# - The path string value such that we can correctly call the `filter` with it
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#
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# While we could just recurse with the path value,
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# this would then require converting it to a path string for every path,
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# which is a fairly expensive operation
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# Create a file set from a directory entry
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fromDirEntry = path: pathString: type:
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# The filter needs to run on the path as a string
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if ! sourceFilter pathString type then
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null
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else if type == "directory" then
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fromDir path pathString
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else
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type;
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# Create a file set from a directory
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fromDir = path: pathString:
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mapAttrs
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# This looks a bit funny, but we need both the path-based and the path string-based values
|
|
(name: fromDirEntry (path + "/${name}") (pathString + "/${name}"))
|
|
# We need to readDir on the path value, because reading on a path string
|
|
# would be unspecified if there are multiple filesystem roots
|
|
(readDir path);
|
|
|
|
rootPathType = pathType root;
|
|
|
|
# We need to convert the path to a string to imitate what builtins.path calls the filter function with.
|
|
# We don't want to rely on `toString` for this though because it's not very well defined, see ../path/README.md
|
|
# So instead we use `lib.path.splitRoot` to safely deconstruct the path into its filesystem root and subpath
|
|
# We don't need the filesystem root though, builtins.path doesn't expose that in any way to the filter.
|
|
# So we only need the components, which we then turn into a string as one would expect.
|
|
rootString = "/" + concatStringsSep "/" (components (splitRoot root).subpath);
|
|
in
|
|
if rootPathType == "directory" then
|
|
# We imitate builtins.path not calling the filter on the root path
|
|
_create root (fromDir root rootString)
|
|
else
|
|
# Direct files are always included by builtins.path without calling the filter
|
|
# But we need to lift up the base path to its parent to satisfy the base path invariant
|
|
_create (dirOf root)
|
|
{
|
|
${baseNameOf root} = rootPathType;
|
|
};
|
|
|
|
# Transforms the filesetTree of a file set to a shorter base path, e.g.
|
|
# _shortenTreeBase [ "foo" ] (_create /foo/bar null)
|
|
# => { bar = null; }
|
|
_shortenTreeBase = targetBaseComponents: fileset:
|
|
let
|
|
recurse = index:
|
|
# If we haven't reached the required depth yet
|
|
if index < length fileset._internalBaseComponents then
|
|
# Create an attribute set and recurse as the value, this can be lazily evaluated this way
|
|
{ ${elemAt fileset._internalBaseComponents index} = recurse (index + 1); }
|
|
else
|
|
# Otherwise we reached the appropriate depth, here's the original tree
|
|
fileset._internalTree;
|
|
in
|
|
recurse (length targetBaseComponents);
|
|
|
|
# Transforms the filesetTree of a file set to a longer base path, e.g.
|
|
# _lengthenTreeBase [ "foo" "bar" ] (_create /foo { bar.baz = "regular"; })
|
|
# => { baz = "regular"; }
|
|
_lengthenTreeBase = targetBaseComponents: fileset:
|
|
let
|
|
recurse = index: tree:
|
|
# If the filesetTree is an attribute set and we haven't reached the required depth yet
|
|
if isAttrs tree && index < length targetBaseComponents then
|
|
# Recurse with the tree under the right component (which might not exist)
|
|
recurse (index + 1) (tree.${elemAt targetBaseComponents index} or null)
|
|
else
|
|
# For all values here we can just return the tree itself:
|
|
# tree == null -> the result is also null, everything is excluded
|
|
# tree == "directory" -> the result is also "directory",
|
|
# because the base path is always a directory and everything is included
|
|
# isAttrs tree -> the result is `tree`
|
|
# because we don't need to recurse any more since `index == length longestBaseComponents`
|
|
tree;
|
|
in
|
|
recurse (length fileset._internalBaseComponents) fileset._internalTree;
|
|
|
|
# Computes the union of a list of filesets.
|
|
# The filesets must already be coerced and validated to be in the same filesystem root
|
|
# Type: [ Fileset ] -> Fileset
|
|
_unionMany = filesets:
|
|
let
|
|
# All filesets that have a base, aka not the ones that are the empty value without a base
|
|
filesetsWithBase = filter (fileset: ! fileset._internalIsEmptyWithoutBase) filesets;
|
|
|
|
# The first fileset that has a base.
|
|
# This value is only accessed if there are at all.
|
|
firstWithBase = head filesetsWithBase;
|
|
|
|
# To be able to union filesetTree's together, they need to have the same base path.
|
|
# Base paths can be unioned by taking their common prefix,
|
|
# e.g. such that `union /foo/bar /foo/baz` has the base path `/foo`
|
|
|
|
# A list of path components common to all base paths.
|
|
# Note that commonPrefix can only be fully evaluated,
|
|
# so this cannot cause a stack overflow due to a build-up of unevaluated thunks.
|
|
commonBaseComponents = foldl'
|
|
(components: el: commonPrefix components el._internalBaseComponents)
|
|
firstWithBase._internalBaseComponents
|
|
# We could also not do the `tail` here to avoid a list allocation,
|
|
# but then we'd have to pay for a potentially expensive
|
|
# but unnecessary `commonPrefix` call
|
|
(tail filesetsWithBase);
|
|
|
|
# The common base path assembled from a filesystem root and the common components
|
|
commonBase = append firstWithBase._internalBaseRoot (join commonBaseComponents);
|
|
|
|
# A list of filesetTree's that all have the same base path
|
|
# This is achieved by nesting the trees into the components they have over the common base path
|
|
# E.g. `union /foo/bar /foo/baz` has the base path /foo
|
|
# So the tree under `/foo/bar` gets nested under `{ bar = ...; ... }`,
|
|
# while the tree under `/foo/baz` gets nested under `{ baz = ...; ... }`
|
|
# Therefore allowing combined operations over them.
|
|
trees = map (_shortenTreeBase commonBaseComponents) filesetsWithBase;
|
|
|
|
# Folds all trees together into a single one using _unionTree
|
|
# We do not use a fold here because it would cause a thunk build-up
|
|
# which could cause a stack overflow for a large number of trees
|
|
resultTree = _unionTrees trees;
|
|
in
|
|
# If there's no values with a base, we have no files
|
|
if filesetsWithBase == [ ] then
|
|
_emptyWithoutBase
|
|
else
|
|
_create commonBase resultTree;
|
|
|
|
# The union of multiple filesetTree's with the same base path.
|
|
# Later elements are only evaluated if necessary.
|
|
# Type: [ filesetTree ] -> filesetTree
|
|
_unionTrees = trees:
|
|
let
|
|
stringIndex = findFirstIndex isString null trees;
|
|
withoutNull = filter (tree: tree != null) trees;
|
|
in
|
|
if stringIndex != null then
|
|
# If there's a string, it's always a fully included tree (dir or file),
|
|
# no need to look at other elements
|
|
elemAt trees stringIndex
|
|
else if withoutNull == [ ] then
|
|
# If all trees are null, then the resulting tree is also null
|
|
null
|
|
else
|
|
# The non-null elements have to be attribute sets representing partial trees
|
|
# We need to recurse into those
|
|
zipAttrsWith (name: _unionTrees) withoutNull;
|
|
|
|
# Computes the intersection of a list of filesets.
|
|
# The filesets must already be coerced and validated to be in the same filesystem root
|
|
# Type: Fileset -> Fileset -> Fileset
|
|
_intersection = fileset1: fileset2:
|
|
let
|
|
# The common base components prefix, e.g.
|
|
# (/foo/bar, /foo/bar/baz) -> /foo/bar
|
|
# (/foo/bar, /foo/baz) -> /foo
|
|
commonBaseComponentsLength =
|
|
# TODO: Have a `lib.lists.commonPrefixLength` function such that we don't need the list allocation from commonPrefix here
|
|
length (
|
|
commonPrefix
|
|
fileset1._internalBaseComponents
|
|
fileset2._internalBaseComponents
|
|
);
|
|
|
|
# To be able to intersect filesetTree's together, they need to have the same base path.
|
|
# Base paths can be intersected by taking the longest one (if any)
|
|
|
|
# The fileset with the longest base, if any, e.g.
|
|
# (/foo/bar, /foo/bar/baz) -> /foo/bar/baz
|
|
# (/foo/bar, /foo/baz) -> null
|
|
longestBaseFileset =
|
|
if commonBaseComponentsLength == length fileset1._internalBaseComponents then
|
|
# The common prefix is the same as the first path, so the second path is equal or longer
|
|
fileset2
|
|
else if commonBaseComponentsLength == length fileset2._internalBaseComponents then
|
|
# The common prefix is the same as the second path, so the first path is longer
|
|
fileset1
|
|
else
|
|
# The common prefix is neither the first nor the second path
|
|
# This means there's no overlap between the two sets
|
|
null;
|
|
|
|
# Whether the result should be the empty value without a base
|
|
resultIsEmptyWithoutBase =
|
|
# If either fileset is the empty fileset without a base, the intersection is too
|
|
fileset1._internalIsEmptyWithoutBase
|
|
|| fileset2._internalIsEmptyWithoutBase
|
|
# If there is no overlap between the base paths
|
|
|| longestBaseFileset == null;
|
|
|
|
# Lengthen each fileset's tree to the longest base prefix
|
|
tree1 = _lengthenTreeBase longestBaseFileset._internalBaseComponents fileset1;
|
|
tree2 = _lengthenTreeBase longestBaseFileset._internalBaseComponents fileset2;
|
|
|
|
# With two filesetTree's with the same base, we can compute their intersection
|
|
resultTree = _intersectTree tree1 tree2;
|
|
in
|
|
if resultIsEmptyWithoutBase then
|
|
_emptyWithoutBase
|
|
else
|
|
_create longestBaseFileset._internalBase resultTree;
|
|
|
|
# The intersection of two filesetTree's with the same base path
|
|
# The second element is only evaluated as much as necessary.
|
|
# Type: filesetTree -> filesetTree -> filesetTree
|
|
_intersectTree = lhs: rhs:
|
|
if isAttrs lhs && isAttrs rhs then
|
|
# Both sides are attribute sets, we can recurse for the attributes existing on both sides
|
|
mapAttrs
|
|
(name: _intersectTree lhs.${name})
|
|
(builtins.intersectAttrs lhs rhs)
|
|
else if lhs == null || isString rhs then
|
|
# If the lhs is null, the result should also be null
|
|
# And if the rhs is the identity element
|
|
# (a string, aka it includes everything), then it's also the lhs
|
|
lhs
|
|
else
|
|
# In all other cases it's the rhs
|
|
rhs;
|
|
|
|
# Compute the set difference between two file sets.
|
|
# The filesets must already be coerced and validated to be in the same filesystem root.
|
|
# Type: Fileset -> Fileset -> Fileset
|
|
_difference = positive: negative:
|
|
let
|
|
# The common base components prefix, e.g.
|
|
# (/foo/bar, /foo/bar/baz) -> /foo/bar
|
|
# (/foo/bar, /foo/baz) -> /foo
|
|
commonBaseComponentsLength =
|
|
# TODO: Have a `lib.lists.commonPrefixLength` function such that we don't need the list allocation from commonPrefix here
|
|
length (
|
|
commonPrefix
|
|
positive._internalBaseComponents
|
|
negative._internalBaseComponents
|
|
);
|
|
|
|
# We need filesetTree's with the same base to be able to compute the difference between them
|
|
# This here is the filesetTree from the negative file set, but for a base path that matches the positive file set.
|
|
# Examples:
|
|
# For `difference /foo /foo/bar`, `negativeTreeWithPositiveBase = { bar = "directory"; }`
|
|
# because under the base path of `/foo`, only `bar` from the negative file set is included
|
|
# For `difference /foo/bar /foo`, `negativeTreeWithPositiveBase = "directory"`
|
|
# because under the base path of `/foo/bar`, everything from the negative file set is included
|
|
# For `difference /foo /bar`, `negativeTreeWithPositiveBase = null`
|
|
# because under the base path of `/foo`, nothing from the negative file set is included
|
|
negativeTreeWithPositiveBase =
|
|
if commonBaseComponentsLength == length positive._internalBaseComponents then
|
|
# The common prefix is the same as the positive base path, so the second path is equal or longer.
|
|
# We need to _shorten_ the negative filesetTree to the same base path as the positive one
|
|
# E.g. for `difference /foo /foo/bar` the common prefix is /foo, equal to the positive file set's base
|
|
# So we need to shorten the base of the tree for the negative argument from /foo/bar to just /foo
|
|
_shortenTreeBase positive._internalBaseComponents negative
|
|
else if commonBaseComponentsLength == length negative._internalBaseComponents then
|
|
# The common prefix is the same as the negative base path, so the first path is longer.
|
|
# We need to lengthen the negative filesetTree to the same base path as the positive one.
|
|
# E.g. for `difference /foo/bar /foo` the common prefix is /foo, equal to the negative file set's base
|
|
# So we need to lengthen the base of the tree for the negative argument from /foo to /foo/bar
|
|
_lengthenTreeBase positive._internalBaseComponents negative
|
|
else
|
|
# The common prefix is neither the first nor the second path.
|
|
# This means there's no overlap between the two file sets,
|
|
# and nothing from the negative argument should get removed from the positive one
|
|
# E.g for `difference /foo /bar`, we remove nothing to get the same as `/foo`
|
|
null;
|
|
|
|
resultingTree =
|
|
_differenceTree
|
|
positive._internalBase
|
|
positive._internalTree
|
|
negativeTreeWithPositiveBase;
|
|
in
|
|
# If the first file set is empty, we can never have any files in the result
|
|
if positive._internalIsEmptyWithoutBase then
|
|
_emptyWithoutBase
|
|
# If the second file set is empty, nothing gets removed, so the result is just the first file set
|
|
else if negative._internalIsEmptyWithoutBase then
|
|
positive
|
|
else
|
|
# We use the positive file set base for the result,
|
|
# because only files from the positive side may be included,
|
|
# which is what base path is for
|
|
_create positive._internalBase resultingTree;
|
|
|
|
# Computes the set difference of two filesetTree's
|
|
# Type: Path -> filesetTree -> filesetTree
|
|
_differenceTree = path: lhs: rhs:
|
|
# If the lhs doesn't have any files, or the right hand side includes all files
|
|
if lhs == null || isString rhs then
|
|
# The result will always be empty
|
|
null
|
|
# If the right hand side has no files
|
|
else if rhs == null then
|
|
# The result is always the left hand side, because nothing gets removed
|
|
lhs
|
|
else
|
|
# Otherwise we always have two attribute sets to recurse into
|
|
mapAttrs (name: lhsValue:
|
|
_differenceTree (path + "/${name}") lhsValue (rhs.${name} or null)
|
|
) (_directoryEntries path lhs);
|
|
|
|
# Filters all files in a path based on a predicate
|
|
# Type: ({ name, type, ... } -> Bool) -> Path -> FileSet
|
|
_fileFilter = predicate: root:
|
|
let
|
|
# Check the predicate for a single file
|
|
# Type: String -> String -> filesetTree
|
|
fromFile = name: type:
|
|
if
|
|
predicate {
|
|
inherit name type;
|
|
hasExt = ext: hasSuffix ".${ext}" name;
|
|
|
|
# To ensure forwards compatibility with more arguments being added in the future,
|
|
# adding an attribute which can't be deconstructed :)
|
|
"lib.fileset.fileFilter: The predicate function passed as the first argument must be able to handle extra attributes for future compatibility. If you're using `{ name, file, hasExt }:`, use `{ name, file, hasExt, ... }:` instead." = null;
|
|
}
|
|
then
|
|
type
|
|
else
|
|
null;
|
|
|
|
# Check the predicate for all files in a directory
|
|
# Type: Path -> filesetTree
|
|
fromDir = path:
|
|
mapAttrs (name: type:
|
|
if type == "directory" then
|
|
fromDir (path + "/${name}")
|
|
else
|
|
fromFile name type
|
|
) (readDir path);
|
|
|
|
rootType = pathType root;
|
|
in
|
|
if rootType == "directory" then
|
|
_create root (fromDir root)
|
|
else
|
|
# Single files are turned into a directory containing that file or nothing.
|
|
_create (dirOf root) {
|
|
${baseNameOf root} =
|
|
fromFile (baseNameOf root) rootType;
|
|
};
|
|
|
|
# Support for `builtins.fetchGit` with `submodules = true` was introduced in 2.4
|
|
# https://github.com/NixOS/nix/commit/55cefd41d63368d4286568e2956afd535cb44018
|
|
_fetchGitSubmodulesMinver = "2.4";
|
|
|
|
# Mirrors the contents of a Nix store path relative to a local path as a file set.
|
|
# Some notes:
|
|
# - The store path is read at evaluation time.
|
|
# - The store path must not include files that don't exist in the respective local path.
|
|
#
|
|
# Type: Path -> String -> FileSet
|
|
_mirrorStorePath = localPath: storePath:
|
|
let
|
|
recurse = focusedStorePath:
|
|
mapAttrs (name: type:
|
|
if type == "directory" then
|
|
recurse (focusedStorePath + "/${name}")
|
|
else
|
|
type
|
|
) (builtins.readDir focusedStorePath);
|
|
in
|
|
_create localPath
|
|
(recurse storePath);
|
|
|
|
# Create a file set from the files included in the result of a fetchGit call
|
|
# Type: String -> String -> Path -> Attrs -> FileSet
|
|
_fromFetchGit = function: argument: path: extraFetchGitAttrs:
|
|
let
|
|
# This imports the files unnecessarily, which currently can't be avoided
|
|
# because `builtins.fetchGit` is the only function exposing which files are tracked by Git.
|
|
# With the [lazy trees PR](https://github.com/NixOS/nix/pull/6530),
|
|
# the unnecessarily import could be avoided.
|
|
# However a simpler alternative still would be [a builtins.gitLsFiles](https://github.com/NixOS/nix/issues/2944).
|
|
fetchResult = fetchGit ({
|
|
url = path;
|
|
} // extraFetchGitAttrs);
|
|
in
|
|
if inPureEvalMode then
|
|
throw "lib.fileset.${function}: This function is currently not supported in pure evaluation mode, since it currently relies on `builtins.fetchGit`. See https://github.com/NixOS/nix/issues/9292."
|
|
else if ! isPath path then
|
|
throw "lib.fileset.${function}: Expected the ${argument} to be a path, but it's a ${typeOf path} instead."
|
|
# We can identify local working directories by checking for .git,
|
|
# see https://git-scm.com/docs/gitrepository-layout#_description.
|
|
# Note that `builtins.fetchGit` _does_ work for bare repositories (where there's no `.git`),
|
|
# even though `git ls-files` wouldn't return any files in that case.
|
|
else if ! pathExists (path + "/.git") then
|
|
throw "lib.fileset.${function}: Expected the ${argument} (${toString path}) to point to a local working tree of a Git repository, but it's not."
|
|
else
|
|
_mirrorStorePath path fetchResult.outPath;
|
|
|
|
}
|