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4c0d7da183
The old forms presumably predates, or were made in ignorance of, `let inherit`. This way is better style as the scoping as more lexical, something which Nix can (or might already!) take advantage of.
472 lines
13 KiB
Nix
472 lines
13 KiB
Nix
# Operations on attribute sets.
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let
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inherit (builtins) head tail length;
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inherit (import ./trivial.nix) or;
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inherit (import ./default.nix) fold;
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inherit (import ./strings.nix) concatStringsSep;
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inherit (import ./lists.nix) concatMap concatLists all deepSeqList;
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in
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rec {
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inherit (builtins) attrNames listToAttrs hasAttr isAttrs getAttr;
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/* Return an attribute from nested attribute sets.
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Example:
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x = { a = { b = 3; }; }
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attrByPath ["a" "b"] 6 x
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=> 3
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attrByPath ["z" "z"] 6 x
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=> 6
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*/
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attrByPath = attrPath: default: e:
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let attr = head attrPath;
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in
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if attrPath == [] then e
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else if e ? ${attr}
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then attrByPath (tail attrPath) default e.${attr}
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else default;
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/* Return if an attribute from nested attribute set exists.
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Example:
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x = { a = { b = 3; }; }
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hasAttrByPath ["a" "b"] x
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=> true
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hasAttrByPath ["z" "z"] x
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=> false
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*/
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hasAttrByPath = attrPath: e:
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let attr = head attrPath;
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in
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if attrPath == [] then true
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else if e ? ${attr}
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then hasAttrByPath (tail attrPath) e.${attr}
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else false;
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/* Return nested attribute set in which an attribute is set.
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Example:
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setAttrByPath ["a" "b"] 3
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=> { a = { b = 3; }; }
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*/
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setAttrByPath = attrPath: value:
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if attrPath == [] then value
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else listToAttrs
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[ { name = head attrPath; value = setAttrByPath (tail attrPath) value; } ];
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/* Like `getAttrPath' without a default value. If it doesn't find the
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path it will throw.
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Example:
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x = { a = { b = 3; }; }
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getAttrFromPath ["a" "b"] x
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=> 3
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getAttrFromPath ["z" "z"] x
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=> error: cannot find attribute `z.z'
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*/
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getAttrFromPath = attrPath: set:
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let errorMsg = "cannot find attribute `" + concatStringsSep "." attrPath + "'";
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in attrByPath attrPath (abort errorMsg) set;
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/* Return the specified attributes from a set.
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Example:
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attrVals ["a" "b" "c"] as
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=> [as.a as.b as.c]
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*/
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attrVals = nameList: set: map (x: set.${x}) nameList;
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/* Return the values of all attributes in the given set, sorted by
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attribute name.
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Example:
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attrValues {c = 3; a = 1; b = 2;}
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=> [1 2 3]
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*/
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attrValues = builtins.attrValues or (attrs: attrVals (attrNames attrs) attrs);
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/* Collect each attribute named `attr' from a list of attribute
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sets. Sets that don't contain the named attribute are ignored.
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Example:
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catAttrs "a" [{a = 1;} {b = 0;} {a = 2;}]
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=> [1 2]
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*/
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catAttrs = builtins.catAttrs or
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(attr: l: concatLists (map (s: if s ? ${attr} then [s.${attr}] else []) l));
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/* Filter an attribute set by removing all attributes for which the
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given predicate return false.
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Example:
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filterAttrs (n: v: n == "foo") { foo = 1; bar = 2; }
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=> { foo = 1; }
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*/
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filterAttrs = pred: set:
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listToAttrs (concatMap (name: let v = set.${name}; in if pred name v then [(nameValuePair name v)] else []) (attrNames set));
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/* Filter an attribute set recursivelly by removing all attributes for
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which the given predicate return false.
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Example:
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filterAttrsRecursive (n: v: v != null) { foo = { bar = null; }; }
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=> { foo = {}; }
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*/
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filterAttrsRecursive = pred: set:
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listToAttrs (
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concatMap (name:
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let v = set.${name}; in
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if pred name v then [
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(nameValuePair name (
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if isAttrs v then filterAttrsRecursive pred v
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else v
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))
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] else []
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) (attrNames set)
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);
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/* Apply fold functions to values grouped by key.
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Example:
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foldAttrs (n: a: [n] ++ a) [] [{ a = 2; } { a = 3; }]
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=> { a = [ 2 3 ]; }
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*/
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foldAttrs = op: nul: list_of_attrs:
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fold (n: a:
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fold (name: o:
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o // (listToAttrs [{inherit name; value = op n.${name} (a.${name} or nul); }])
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) a (attrNames n)
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) {} list_of_attrs;
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/* Recursively collect sets that verify a given predicate named `pred'
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from the set `attrs'. The recursion is stopped when the predicate is
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verified.
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Type:
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collect ::
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(AttrSet -> Bool) -> AttrSet -> [x]
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Example:
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collect isList { a = { b = ["b"]; }; c = [1]; }
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=> [["b"] [1]]
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collect (x: x ? outPath)
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{ a = { outPath = "a/"; }; b = { outPath = "b/"; }; }
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=> [{ outPath = "a/"; } { outPath = "b/"; }]
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*/
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collect = pred: attrs:
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if pred attrs then
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[ attrs ]
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else if isAttrs attrs then
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concatMap (collect pred) (attrValues attrs)
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else
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[];
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/* Utility function that creates a {name, value} pair as expected by
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builtins.listToAttrs.
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Example:
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nameValuePair "some" 6
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=> { name = "some"; value = 6; }
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*/
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nameValuePair = name: value: { inherit name value; };
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/* Apply a function to each element in an attribute set. The
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function takes two arguments --- the attribute name and its value
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--- and returns the new value for the attribute. The result is a
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new attribute set.
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Example:
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mapAttrs (name: value: name + "-" + value)
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{ x = "foo"; y = "bar"; }
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=> { x = "x-foo"; y = "y-bar"; }
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*/
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mapAttrs = f: set:
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listToAttrs (map (attr: { name = attr; value = f attr set.${attr}; }) (attrNames set));
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/* Like `mapAttrs', but allows the name of each attribute to be
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changed in addition to the value. The applied function should
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return both the new name and value as a `nameValuePair'.
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Example:
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mapAttrs' (name: value: nameValuePair ("foo_" + name) ("bar-" + value))
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{ x = "a"; y = "b"; }
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=> { foo_x = "bar-a"; foo_y = "bar-b"; }
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*/
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mapAttrs' = f: set:
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listToAttrs (map (attr: f attr set.${attr}) (attrNames set));
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/* Call a function for each attribute in the given set and return
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the result in a list.
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Example:
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mapAttrsToList (name: value: name + value)
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{ x = "a"; y = "b"; }
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=> [ "xa" "yb" ]
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*/
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mapAttrsToList = f: attrs:
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map (name: f name attrs.${name}) (attrNames attrs);
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/* Like `mapAttrs', except that it recursively applies itself to
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attribute sets. Also, the first argument of the argument
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function is a *list* of the names of the containing attributes.
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Type:
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mapAttrsRecursive ::
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([String] -> a -> b) -> AttrSet -> AttrSet
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Example:
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mapAttrsRecursive (path: value: concatStringsSep "-" (path ++ [value]))
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{ n = { a = "A"; m = { b = "B"; c = "C"; }; }; d = "D"; }
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=> { n = { a = "n-a-A"; m = { b = "n-m-b-B"; c = "n-m-c-C"; }; }; d = "d-D"; }
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*/
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mapAttrsRecursive = mapAttrsRecursiveCond (as: true);
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/* Like `mapAttrsRecursive', but it takes an additional predicate
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function that tells it whether to recursive into an attribute
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set. If it returns false, `mapAttrsRecursiveCond' does not
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recurse, but does apply the map function. It is returns true, it
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does recurse, and does not apply the map function.
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Type:
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mapAttrsRecursiveCond ::
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(AttrSet -> Bool) -> ([String] -> a -> b) -> AttrSet -> AttrSet
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Example:
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# To prevent recursing into derivations (which are attribute
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# sets with the attribute "type" equal to "derivation"):
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mapAttrsRecursiveCond
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(as: !(as ? "type" && as.type == "derivation"))
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(x: ... do something ...)
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attrs
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*/
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mapAttrsRecursiveCond = cond: f: set:
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let
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recurse = path: set:
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let
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g =
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name: value:
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if isAttrs value && cond value
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then recurse (path ++ [name]) value
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else f (path ++ [name]) value;
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in mapAttrs g set;
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in recurse [] set;
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/* Generate an attribute set by mapping a function over a list of
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attribute names.
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Example:
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genAttrs [ "foo" "bar" ] (name: "x_" + name)
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=> { foo = "x_foo"; bar = "x_bar"; }
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*/
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genAttrs = names: f:
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listToAttrs (map (n: nameValuePair n (f n)) names);
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/* Check whether the argument is a derivation. Any set with
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{ type = "derivation"; } counts as a derivation.
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Example:
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nixpkgs = import <nixpkgs> {}
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isDerivation nixpkgs.ruby
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=> true
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isDerivation "foobar"
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=> false
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*/
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isDerivation = x: isAttrs x && x ? type && x.type == "derivation";
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/* Converts a store path to a fake derivation. */
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toDerivation = path:
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let
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path' = builtins.storePath path;
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res =
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{ type = "derivation";
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name = builtins.unsafeDiscardStringContext (builtins.substring 33 (-1) (baseNameOf path'));
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outPath = path';
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outputs = [ "out" ];
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out = res;
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outputName = "out";
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};
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in res;
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/* If `cond' is true, return the attribute set `as',
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otherwise an empty attribute set.
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Example:
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optionalAttrs (true) { my = "set"; }
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=> { my = "set"; }
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optionalAttrs (false) { my = "set"; }
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=> { }
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*/
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optionalAttrs = cond: as: if cond then as else {};
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/* Merge sets of attributes and use the function f to merge attributes
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values.
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Example:
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zipAttrsWithNames ["a"] (name: vs: vs) [{a = "x";} {a = "y"; b = "z";}]
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=> { a = ["x" "y"]; }
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*/
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zipAttrsWithNames = names: f: sets:
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listToAttrs (map (name: {
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inherit name;
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value = f name (catAttrs name sets);
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}) names);
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/* Implentation note: Common names appear multiple times in the list of
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names, hopefully this does not affect the system because the maximal
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laziness avoid computing twice the same expression and listToAttrs does
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not care about duplicated attribute names.
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Example:
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zipAttrsWith (name: values: values) [{a = "x";} {a = "y"; b = "z";}]
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=> { a = ["x" "y"]; b = ["z"] }
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*/
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zipAttrsWith = f: sets: zipAttrsWithNames (concatMap attrNames sets) f sets;
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/* Like `zipAttrsWith' with `(name: values: value)' as the function.
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Example:
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zipAttrs [{a = "x";} {a = "y"; b = "z";}]
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=> { a = ["x" "y"]; b = ["z"] }
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*/
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zipAttrs = zipAttrsWith (name: values: values);
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/* Does the same as the update operator '//' except that attributes are
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merged until the given pedicate is verified. The predicate should
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accept 3 arguments which are the path to reach the attribute, a part of
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the first attribute set and a part of the second attribute set. When
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the predicate is verified, the value of the first attribute set is
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replaced by the value of the second attribute set.
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Example:
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recursiveUpdateUntil (path: l: r: path == ["foo"]) {
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# first attribute set
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foo.bar = 1;
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foo.baz = 2;
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bar = 3;
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} {
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#second attribute set
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foo.bar = 1;
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foo.quz = 2;
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baz = 4;
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}
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returns: {
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foo.bar = 1; # 'foo.*' from the second set
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foo.quz = 2; #
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bar = 3; # 'bar' from the first set
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baz = 4; # 'baz' from the second set
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}
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*/
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recursiveUpdateUntil = pred: lhs: rhs:
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let f = attrPath:
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zipAttrsWith (n: values:
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if tail values == []
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|| pred attrPath (head (tail values)) (head values) then
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head values
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else
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f (attrPath ++ [n]) values
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);
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in f [] [rhs lhs];
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/* A recursive variant of the update operator ‘//’. The recursion
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stops when one of the attribute values is not an attribute set,
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in which case the right hand side value takes precedence over the
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left hand side value.
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Example:
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recursiveUpdate {
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boot.loader.grub.enable = true;
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boot.loader.grub.device = "/dev/hda";
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} {
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boot.loader.grub.device = "";
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}
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returns: {
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boot.loader.grub.enable = true;
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boot.loader.grub.device = "";
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}
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*/
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recursiveUpdate = lhs: rhs:
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recursiveUpdateUntil (path: lhs: rhs:
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!(isAttrs lhs && isAttrs rhs)
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) lhs rhs;
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/* Returns true if the pattern is contained in the set. False otherwise.
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FIXME(zimbatm): this example doesn't work !!!
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Example:
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sys = mkSystem { }
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matchAttrs { cpu = { bits = 64; }; } sys
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=> true
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*/
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matchAttrs = pattern: attrs:
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fold or false (attrValues (zipAttrsWithNames (attrNames pattern) (n: values:
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let pat = head values; val = head (tail values); in
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if length values == 1 then false
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else if isAttrs pat then isAttrs val && matchAttrs head values
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else pat == val
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) [pattern attrs]));
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/* Override only the attributes that are already present in the old set
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useful for deep-overriding.
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Example:
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x = { a = { b = 4; c = 3; }; }
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overrideExisting x { a = { b = 6; d = 2; }; }
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=> { a = { b = 6; d = 2; }; }
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*/
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overrideExisting = old: new:
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old // listToAttrs (map (attr: nameValuePair attr (attrByPath [attr] old.${attr} new)) (attrNames old));
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/* Get a package output.
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If no output is found, fallback to `.out` and then to the default.
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Example:
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getOutput "dev" pkgs.openssl
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=> "/nix/store/9rz8gxhzf8sw4kf2j2f1grr49w8zx5vj-openssl-1.0.1r-dev"
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*/
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getOutput = output: pkg:
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if pkg.outputUnspecified or false
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then pkg.${output} or pkg.out or pkg
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else pkg;
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getBin = getOutput "bin";
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getLib = getOutput "lib";
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getDev = getOutput "dev";
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/* Pick the outputs of packages to place in buildInputs */
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chooseDevOutputs = drvs: builtins.map getDev drvs;
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/*** deprecated stuff ***/
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zipWithNames = zipAttrsWithNames;
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zip = builtins.trace
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"lib.zip is deprecated, use lib.zipAttrsWith instead" zipAttrsWith;
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}
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