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# Description The previous behaviour of `into record` on lists was to create a new record with each list index as the key. This was not very useful for creating meaningful records, though, and most people would end up using commands like `headers` or `transpose` to turn a list of keys and values into a record. This PR changes that instead to do what I think the most ergonomic thing is, and instead: - A list of records is merged into one record. - A list of pairs (two element lists) is folded into a record with the first element of each pair being the key, and the second being the value. The former is just generally more useful than having to use `reduce` with `merge` for such a common operation, and the latter is useful because it means that `$a | zip $b | into record` *just works* in the way that seems most obvious. Example: ```nushell [[foo bar] [baz quux]] | into record # => {foo: bar, baz: quux} [{foo: bar} {baz: quux}] | into record # => {foo: bar, baz: quux} [foo baz] | zip [bar quux] | into record # => {foo: bar, baz: quux} ``` The support for range input has been removed, as it would no longer reflect the treatment of an equivalent list. The following is equivalent to the old behavior, in case that's desired: ``` 0.. | zip [a b c] | into record # => {0: a, 1: b, 2: c} ``` # User-Facing Changes - `into record` changed as described above (breaking) - `into record` no longer supports range input (breaking) # Tests + Formatting Examples changed to match, everything works. Some usage in stdlib and `nu_plugin_nu_example` had to be changed. # After Submitting - [ ] release notes (commands, breaking change)
223 lines
5.2 KiB
Plaintext
223 lines
5.2 KiB
Plaintext
# | Filter Extensions
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#
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# This module implements extensions to the `filters` commands
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#
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# They are prefixed with `iter` so as to avoid conflicts with
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# the inbuilt filters
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# Returns the first element of the list that matches the
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# closure predicate, `null` otherwise
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#
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# # Invariant
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# > The closure has to be a predicate (returning a bool value)
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# > else `null` is returned
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# > The closure also has to be valid for the types it receives
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# > These will be flagged as errors later as closure annotations
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# > are implemented
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#
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# # Example
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# ```
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# use std ["assert equal" "iter find"]
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#
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# let haystack = ["shell", "abc", "around", "nushell", "std"]
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#
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# let found = ($haystack | iter find {|it| $it starts-with "a" })
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# let not_found = ($haystack | iter find {|it| $it mod 2 == 0})
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#
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# assert equal $found "abc"
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# assert equal $not_found null
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# ```
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export def find [ # -> any | null
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fn: closure # the closure used to perform the search
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] {
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try {
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filter $fn | get 0?
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} catch {
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null
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}
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}
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# Returns the index of the first element that matches the predicate or
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# -1 if none
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#
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# # Invariant
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# > The closure has to return a bool
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#
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# # Example
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# ```nu
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# use std ["assert equal" "iter find-index"]
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#
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# let res = (
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# ["iter", "abc", "shell", "around", "nushell", "std"]
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# | iter find-index {|x| $x starts-with 's'}
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# )
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# assert equal $res 2
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#
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# let is_even = {|x| $x mod 2 == 0}
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# let res = ([3 5 13 91] | iter find-index $is_even)
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# assert equal $res -1
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# ```
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export def find-index [ # -> int
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fn: closure # the closure used to perform the search
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] {
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let matches = (
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enumerate
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| each {|it|
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if (do $fn $it.item) {
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$it.index
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}
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}
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)
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if ($matches | is-empty) {
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-1
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} else {
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$matches | first
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}
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}
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# Returns a new list with the separator between adjacent
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# items of the original list
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#
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# # Example
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# ```
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# use std ["assert equal" "iter intersperse"]
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#
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# let res = ([1 2 3 4] | iter intersperse 0)
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# assert equal $res [1 0 2 0 3 0 4]
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# ```
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export def intersperse [ # -> list<any>
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separator: any # the separator to be used
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] {
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reduce --fold [] {|it, acc|
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$acc ++ [$it, $separator]
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}
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| match $in {
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[] => [],
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$xs => ($xs | take (($xs | length) - 1 ))
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}
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}
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# Returns a list of intermediate steps performed by `reduce`
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# (`fold`). It takes two arguments, an initial value to seed the
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# initial state and a closure that takes two arguments, the first
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# being the internal state and the second the list element in the
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# current iteration.
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#
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# # Example
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# ```
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# use std ["assert equal" "iter scan"]
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# let scanned = ([1 2 3] | iter scan 0 {|x, y| $x + $y})
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#
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# assert equal $scanned [0, 1, 3, 6]
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#
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# # use the --noinit(-n) flag to remove the initial value from
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# # the final result
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# let scanned = ([1 2 3] | iter scan 0 {|x, y| $x + $y} -n)
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#
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# assert equal $scanned [1, 3, 6]
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# ```
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export def scan [ # -> list<any>
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init: any # initial value to seed the initial state
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fn: closure # the closure to perform the scan
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--noinit(-n) # remove the initial value from the result
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] {
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reduce --fold [$init] {|it, acc|
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$acc ++ [(do $fn ($acc | last) $it)]
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}
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| if $noinit {
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$in | skip
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} else {
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$in
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}
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}
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# Returns a list of values for which the supplied closure does not
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# return `null` or an error. It is equivalent to
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# `$in | each $fn | filter $fn`
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#
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# # Example
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# ```nu
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# use std ["assert equal" "iter filter-map"]
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#
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# let res = ([2 5 "4" 7] | iter filter-map {|it| $it ** 2})
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#
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# assert equal $res [4 25 49]
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# ```
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export def filter-map [ # -> list<any>
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fn: closure # the closure to apply to the input
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] {
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each {|$it|
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try {
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do $fn $it
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} catch {
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null
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}
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}
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| filter {|it|
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$it != null
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}
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}
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# Maps a closure to each nested structure and flattens the result
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#
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# # Example
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# ```nu
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# use std ["assert equal" "iter flat-map"]
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#
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# let res = (
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# [[1 2 3] [2 3 4] [5 6 7]] | iter flat-map {|it| $it | math sum}
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# )
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# assert equal $res [6 9 18]
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# ```
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export def flat-map [ # -> list<any>
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fn: closure # the closure to map to the nested structures
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] {
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each {|it| do $fn $it } | flatten
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}
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# Zips two structures and applies a closure to each of the zips
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#
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# # Example
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# ```nu
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# use std ["assert equal" "iter iter zip-with"]
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#
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# let res = (
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# [1 2 3] | iter zip-with [2 3 4] {|a, b| $a + $b }
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# )
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#
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# assert equal $res [3 5 7]
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# ```
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export def zip-with [ # -> list<any>
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other: any # the structure to zip with
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fn: closure # the closure to apply to the zips
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] {
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zip $other
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| each {|it|
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reduce {|it, acc| do $fn $acc $it }
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}
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}
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# Zips two lists and returns a record with the first list as headers
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#
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# # Example
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# ```nu
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# use std ["assert equal" "iter iter zip-into-record"]
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#
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# let res = (
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# [1 2 3] | iter zip-into-record [2 3 4]
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# )
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#
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# assert equal $res [
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# [1 2 3];
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# [2 3 4]
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# ]
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# ```
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export def zip-into-record [ # -> table<any>
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other: list # the values to zip with
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] {
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zip $other
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| into record
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| [$in]
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}
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