findFirstIndex.nix: init

This commit is contained in:
Oystein Kristoffer Tveit 2024-10-29 00:38:15 +01:00
parent ec3006ab6f
commit d3213f076e
Signed by: oysteikt
GPG Key ID: 9F2F7D8250F35146
2 changed files with 73 additions and 0 deletions

View File

@ -15,5 +15,6 @@
subtractLists = import ./src/subtractLists.nix lib;
unique = import ./src/unique.nix lib;
overrideExisting = import ./src/overrideExisting.nix lib;
findFirstIndex = import ./src/findFirstIndex.nix lib;
};
}

72
src/findFirstIndex.nix Normal file
View File

@ -0,0 +1,72 @@
lib:
let
findFirstIndexOld =
pred:
default:
list:
let
# A naive recursive implementation would be much simpler, but
# would also overflow the evaluator stack. We use `foldl'` as a workaround
# because it reuses the same stack space, evaluating the function for one
# element after another. We can't return early, so this means that we
# sacrifice early cutoff, but that appears to be an acceptable cost. A
# clever scheme with "exponential search" is possible, but appears over-
# engineered for now. See https://github.com/NixOS/nixpkgs/pull/235267
# Invariant:
# - if index < 0 then el == elemAt list (- index - 1) and all elements before el didn't satisfy pred
# - if index >= 0 then pred (elemAt list index) and all elements before (elemAt list index) didn't satisfy pred
#
# We start with index -1 and the 0'th element of the list, which satisfies the invariant
resultIndex = lib.foldl' (index: el:
if index < 0 then
# No match yet before the current index, we need to check the element
if pred el then
# We have a match! Turn it into the actual index to prevent future iterations from modifying it
- index - 1
else
# Still no match, update the index to the next element (we're counting down, so minus one)
index - 1
else
# There's already a match, propagate the index without evaluating anything
index
) (-1) list;
in
if resultIndex < 0 then
default
else
resultIndex;
findFirstIndexNew =
pred:
default:
list:
if list == [ ] then default else
let
stopAtListLength = lib.min (builtins.length list - 1);
closure = builtins.genericClosure (rec {
startSet = [{
key = -1;
found = false;
}];
operator = item: if item.found then startSet else [(rec {
key = stopAtListLength (item.key + 1);
found = pred (builtins.elemAt list key);
})];
});
lastItem = builtins.elemAt closure (builtins.length closure - 1);
in if lastItem.found then lastItem.key else default;
bigdata = (lib.imap0 (i: _: toString i) (lib.replicate 999999 null));
tests = f: {
none = f (x: x == ":)") "not found" bigdata;
last = f (x: x == ":)") "not found" (bigdata ++ [":)"]);
middle = f (x: x == ":)") "not found" (bigdata ++ [":)"] ++ bigdata);
empty = f (x: x == ":)") "not found" [ ];
};
in rec {
old = tests findFirstIndexOld;
new = tests findFirstIndexNew;
sanityCheck = lib.all (name: assert lib.assertMsg (old.${name} == new.${name}) "output of '${name}' test is not equal"; true) (builtins.attrNames (tests null));
}