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Markdown
268 lines
15 KiB
Markdown
# File set library
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This is the internal contributor documentation.
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The user documentation is [in the Nixpkgs manual](https://nixos.org/manual/nixpkgs/unstable/#sec-fileset).
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## Goals
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The main goal of the file set library is to be able to select local files that should be added to the Nix store.
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It should have the following properties:
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- Easy:
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The functions should have obvious semantics, be low in number and be composable.
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- Safe:
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Throw early and helpful errors when mistakes are detected.
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- Lazy:
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Only compute values when necessary.
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Non-goals are:
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- Efficient:
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If the abstraction proves itself worthwhile but too slow, it can be still be optimized further.
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## Tests
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Tests are declared in [`tests.sh`](./tests.sh) and can be run using
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```
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./tests.sh
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```
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## Benchmark
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A simple benchmark against the HEAD commit can be run using
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```
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./benchmark.sh HEAD
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```
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This is intended to be run manually and is not checked by CI.
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## Internal representation
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The internal representation is versioned in order to allow file sets from different Nixpkgs versions to be composed with each other, see [`internal.nix`](./internal.nix) for the versions and conversions between them.
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This section describes only the current representation, but past versions will have to be supported by the code.
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### `fileset`
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An attribute set with these values:
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- `_type` (constant string `"fileset"`):
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Tag to indicate this value is a file set.
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- `_internalVersion` (constant `3`, the current version):
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Version of the representation.
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- `_internalIsEmptyWithoutBase` (bool):
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Whether this file set is the empty file set without a base path.
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If `true`, `_internalBase*` and `_internalTree` are not set.
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This is the only way to represent an empty file set without needing a base path.
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Such a value can be used as the identity element for `union` and the return value of `unions []` and co.
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- `_internalBase` (path):
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Any files outside of this path cannot influence the set of files.
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This is always a directory and should be as long as possible.
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This is used by `lib.fileset.toSource` to check that all files are under the `root` argument
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- `_internalBaseRoot` (path):
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The filesystem root of `_internalBase`, same as `(lib.path.splitRoot _internalBase).root`.
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This is here because this needs to be computed anyway, and this computation shouldn't be duplicated.
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- `_internalBaseComponents` (list of strings):
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The path components of `_internalBase`, same as `lib.path.subpath.components (lib.path.splitRoot _internalBase).subpath`.
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This is here because this needs to be computed anyway, and this computation shouldn't be duplicated.
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- `_internalTree` ([filesetTree](#filesettree)):
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A tree representation of all included files under `_internalBase`.
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- `__noEval` (error):
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An error indicating that directly evaluating file sets is not supported.
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## `filesetTree`
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One of the following:
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- `{ <name> = filesetTree; }`:
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A directory with a nested `filesetTree` value for directory entries.
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Entries not included may either be omitted or set to `null`, as necessary to improve efficiency or laziness.
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- `"directory"`:
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A directory with all its files included recursively, allowing early cutoff for some operations.
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This specific string is chosen to be compatible with `builtins.readDir` for a simpler implementation.
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- `"regular"`, `"symlink"`, `"unknown"` or any other non-`"directory"` string:
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A nested file with its file type.
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These specific strings are chosen to be compatible with `builtins.readDir` for a simpler implementation.
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Distinguishing between different file types is not strictly necessary for the functionality this library,
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but it does allow nicer printing of file sets.
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- `null`:
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A file or directory that is excluded from the tree.
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It may still exist on the file system.
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## API design decisions
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This section justifies API design decisions.
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### Internal structure
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The representation of the file set data type is internal and can be changed over time.
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Arguments:
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- (+) The point of this library is to provide high-level functions, users don't need to be concerned with how it's implemented
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- (+) It allows adjustments to the representation, which is especially useful in the early days of the library.
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- (+) It still allows the representation to be stabilized later if necessary and if it has proven itself
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### Influence tracking
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File set operations internally track the top-most directory that could influence the exact contents of a file set.
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Specifically, `toSource` requires that the given `fileset` is completely determined by files within the directory specified by the `root` argument.
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For example, even with `dir/file.txt` being the only file in `./.`, `toSource { root = ./dir; fileset = ./.; }` gives an error.
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This is because `fileset` may as well be the result of filtering `./.` in a way that excludes `dir`.
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Arguments:
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- (+) This gives us the guarantee that adding new files to a project never breaks a file set expression.
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This is also true in a lesser form for removed files:
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only removing files explicitly referenced by paths can break a file set expression.
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- (+) This can be removed later, if we discover it's too restrictive
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- (-) It leads to errors when a sensible result could sometimes be returned, such as in the above example.
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### Empty file set without a base
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There is a special representation for an empty file set without a base path.
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This is used for return values that should be empty but when there's no base path that would makes sense.
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Arguments:
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- Alternative: This could also be represented using `_internalBase = /.` and `_internalTree = null`.
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- (+) Removes the need for a special representation.
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- (-) Due to [influence tracking](#influence-tracking),
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`union empty ./.` would have `/.` as the base path,
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which would then prevent `toSource { root = ./.; fileset = union empty ./.; }` from working,
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which is not as one would expect.
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- (-) With the assumption that there can be multiple filesystem roots (as established with the [path library](../path/README.md)),
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this would have to cause an error with `union empty pathWithAnotherFilesystemRoot`,
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which is not as one would expect.
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- Alternative: Do not have such a value and error when it would be needed as a return value
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- (+) Removes the need for a special representation.
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- (-) Leaves us with no identity element for `union` and no reasonable return value for `unions []`.
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From a set theory perspective, which has a well-known notion of empty sets, this is unintuitive.
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### No intersection for lists
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While there is `intersection a b`, there is no function `intersections [ a b c ]`.
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Arguments:
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- (+) There is no known use case for such a function, it can be added later if a use case arises
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- (+) There is no suitable return value for `intersections [ ]`, see also "Nullary intersections" [here](https://en.wikipedia.org/w/index.php?title=List_of_set_identities_and_relations&oldid=1177174035#Definitions)
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- (-) Could throw an error for that case
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- (-) Create a special value to represent "all the files" and return that
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- (+) Such a value could then not be used with `fileFilter` unless the internal representation is changed considerably
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- (-) Could return the empty file set
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- (+) This would be wrong in set theory
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- (-) Inconsistent with `union` and `unions`
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### Intersection base path
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The base path of the result of an `intersection` is the longest base path of the arguments.
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E.g. the base path of `intersection ./foo ./foo/bar` is `./foo/bar`.
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Meanwhile `intersection ./foo ./bar` returns the empty file set without a base path.
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Arguments:
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- Alternative: Use the common prefix of all base paths as the resulting base path
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- (-) This is unnecessarily strict, because the purpose of the base path is to track the directory under which files _could_ be in the file set. It should be as long as possible.
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All files contained in `intersection ./foo ./foo/bar` will be under `./foo/bar` (never just under `./foo`), and `intersection ./foo ./bar` will never contain any files (never under `./.`).
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This would lead to `toSource` having to unexpectedly throw errors for cases such as `toSource { root = ./foo; fileset = intersect ./foo base; }`, where `base` may be `./bar` or `./.`.
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- (-) There is no benefit to the user, since base path is not directly exposed in the interface
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### Empty directories
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File sets can only represent a _set_ of local files.
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Directories on their own are not representable.
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Arguments:
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- (+) There does not seem to be a sensible set of combinators when directories can be represented on their own.
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Here's some possibilities:
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- `./.` represents the files in `./.` _and_ the directory itself including its subdirectories, meaning that even if there's no files, the entire structure of `./.` is preserved
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In that case, what should `fileFilter (file: false) ./.` return?
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It could return the entire directory structure unchanged, but with all files removed, which would not be what one would expect.
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Trying to have a filter function that also supports directories will lead to the question of:
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What should the behavior be if `./foo` itself is excluded but all of its contents are included?
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It leads to having to define when directories are recursed into, but then we're effectively back at how the `builtins.path`-based filters work.
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- `./.` represents all files in `./.` _and_ the directory itself, but not its subdirectories, meaning that at least `./.` will be preserved even if it's empty.
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In that case, `intersection ./. ./foo` should only include files and no directories themselves, since `./.` includes only `./.` as a directory, and same for `./foo`, so there's no overlap in directories.
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But intuitively this operation should result in the same as `./foo` – everything else is just confusing.
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- (+) This matches how Git only supports files, so developers should already be used to it.
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- (-) Empty directories (even if they contain nested directories) are neither representable nor preserved when coercing from paths.
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- (+) It is very rare that empty directories are necessary.
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- (+) We can implement a workaround, allowing `toSource` to take an extra argument for ensuring certain extra directories exist in the result.
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- (-) It slows down store imports, since the evaluator needs to traverse the entire tree to remove any empty directories
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- (+) This can still be optimized by introducing more Nix builtins if necessary
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### String paths
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File sets do not support Nix store paths in strings such as `"/nix/store/...-source"`.
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Arguments:
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- (+) Such paths are usually produced by derivations, which means `toSource` would either:
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- Require [Import From Derivation](https://nixos.org/manual/nix/unstable/language/import-from-derivation) (IFD) if `builtins.path` is used as the underlying primitive
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- Require importing the entire `root` into the store such that derivations can be used to do the filtering
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- (+) The convenient path coercion like `union ./foo ./bar` wouldn't work for absolute paths, requiring more verbose alternate interfaces:
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- `let root = "/nix/store/...-source"; in union "${root}/foo" "${root}/bar"`
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Verbose and dangerous because if `root` was a path, the entire path would get imported into the store.
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- `toSource { root = "/nix/store/...-source"; fileset = union "./foo" "./bar"; }`
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Does not allow debug printing intermediate file set contents, since we don't know the paths contents before having a `root`.
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- `let fs = lib.fileset.withRoot "/nix/store/...-source"; in fs.union "./foo" "./bar"`
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Makes library functions impure since they depend on the contextual root path, questionable composability.
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- (+) The point of the file set abstraction is to specify which files should get imported into the store.
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This use case makes little sense for files that are already in the store.
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This should be a separate abstraction as e.g. `pkgs.drvLayout` instead, which could have a similar interface but be specific to derivations.
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Additional capabilities could be supported that can't be done at evaluation time, such as renaming files, creating new directories, setting executable bits, etc.
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- (+) An API for filtering/transforming Nix store paths could be much more powerful,
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because it's not limited to just what is possible at evaluation time with `builtins.path`.
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Operations such as moving and adding files would be supported.
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### Single files
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File sets cannot add single files to the store, they can only import files under directories.
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Arguments:
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- (+) There's no point in using this library for a single file, since you can't do anything other than add it to the store or not.
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And it would be unclear how the library should behave if the one file wouldn't be added to the store:
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`toSource { root = ./file.nix; fileset = <empty>; }` has no reasonable result because returning an empty store path wouldn't match the file type, and there's no way to have an empty file store path, whatever that would mean.
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### `fileFilter` takes a path
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The `fileFilter` function takes a path, and not a file set, as its second argument.
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- (-) Makes it harder to compose functions, since the file set type, the return value, can't be passed to the function itself like `fileFilter predicate fileset`
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- (+) It's still possible to use `intersection` to filter on file sets: `intersection fileset (fileFilter predicate ./.)`
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- (-) This does need an extra `./.` argument that's not obvious
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- (+) This could always be `/.` or the project directory, `intersection` will make it lazy
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- (+) In the future this will allow `fileFilter` to support a predicate property like `subpath` and/or `components` in a reproducible way.
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This wouldn't be possible if it took a file set, because file sets don't have a predictable absolute path.
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- (-) What about the base path?
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- (+) That can change depending on which files are included, so if it's used for `fileFilter`
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it would change the `subpath`/`components` value depending on which files are included.
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- (+) If necessary, this restriction can be relaxed later, the opposite wouldn't be possible
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### Strict path existence checking
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Coercing paths that don't exist to file sets always gives an error.
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- (-) Sometimes you want to remove a file that may not always exist using `difference ./. ./does-not-exist`,
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but this does not work because coercion of `./does-not-exist` fails,
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even though its existence would have no influence on the result.
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- (+) This is dangerous, because you wouldn't be protected against typos anymore.
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E.g. when trying to prevent `./secret` from being imported, a typo like `difference ./. ./sercet` would import it regardless.
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- (+) `difference ./. (maybeMissing ./does-not-exist)` can be used to do this more explicitly.
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- (+) `difference ./. (difference ./foo ./foo/bar)` should report an error when `./foo/bar` does not exist ("double negation"). Unfortunately, the current internal representation does not lend itself to a behavior where both `difference x ./does-not-exists` and double negation are handled and checked correctly.
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This could be fixed, but would require significant changes to the internal representation that are not worth the effort and the risk of introducing implicit behavior.
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