mirror of
https://github.com/go-sylixos/elvish.git
synced 2024-12-05 03:17:50 +08:00
826 lines
16 KiB
Go
826 lines
16 KiB
Go
package eval
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import (
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"errors"
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"fmt"
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"math"
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"sort"
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"github.com/elves/elvish/pkg/eval/errs"
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"github.com/elves/elvish/pkg/eval/vals"
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"github.com/elves/elvish/pkg/eval/vars"
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"github.com/xiaq/persistent/hashmap"
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)
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// Sequence, list and maps.
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// TODO(xiaq): Document "ns".
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//elvdoc:fn range
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//
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// ```elvish
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// range &step=1 $low? $high
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// ```
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//
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// Output `$low`, `$low` + `$step`, ..., proceeding as long as smaller than
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// `$high`. If not given, `$low` defaults to 0.
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//
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// Examples:
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//
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// ```elvish-transcript
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// ~> range 4
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// ▶ 0
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// ▶ 1
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// ▶ 2
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// ▶ 3
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// ~> range 1 6 &step=2
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// ▶ 1
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// ▶ 3
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// ▶ 5
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// ```
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//
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// Beware floating point oddities:
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//
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// ```elvish-transcript
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// ~> range 0 0.8 &step=.1
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// ▶ 0
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// ▶ 0.1
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// ▶ 0.2
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// ▶ 0.30000000000000004
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// ▶ 0.4
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// ▶ 0.5
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// ▶ 0.6
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// ▶ 0.7
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// ▶ 0.7999999999999999
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// ```
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//
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// Etymology:
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// [Python](https://docs.python.org/3/library/functions.html#func-range).
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//elvdoc:fn repeat
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//
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// ```elvish
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// repeat $n $value
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// ```
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//
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// Output `$value` for `$n` times. Example:
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//
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// ```elvish-transcript
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// ~> repeat 0 lorem
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// ~> repeat 4 NAN
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// ▶ NAN
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// ▶ NAN
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// ▶ NAN
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// ▶ NAN
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// ```
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//
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// Etymology: [Clojure](https://clojuredocs.org/clojure.core/repeat).
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//elvdoc:fn assoc
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//
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// ```elvish
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// assoc $container $k $v
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// ```
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//
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// Output a slightly modified version of `$container`, such that its value at `$k`
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// is `$v`. Applies to both lists and to maps.
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//
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// When `$container` is a list, `$k` may be a negative index. However, slice is not
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// yet supported.
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//
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// ```elvish-transcript
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// ~> assoc [foo bar quux] 0 lorem
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// ▶ [lorem bar quux]
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// ~> assoc [foo bar quux] -1 ipsum
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// ▶ [foo bar ipsum]
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// ~> assoc [&k=v] k v2
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// ▶ [&k=v2]
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// ~> assoc [&k=v] k2 v2
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// ▶ [&k2=v2 &k=v]
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// ```
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//
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// Etymology: [Clojure](https://clojuredocs.org/clojure.core/assoc).
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//
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// @cf dissoc
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//elvdoc:fn dissoc
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//
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// ```elvish
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// dissoc $map $k
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// ```
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//
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// Output a slightly modified version of `$map`, with the key `$k` removed. If
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// `$map` does not contain `$k` as a key, the same map is returned.
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//
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// ```elvish-transcript
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// ~> dissoc [&foo=bar &lorem=ipsum] foo
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// ▶ [&lorem=ipsum]
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// ~> dissoc [&foo=bar &lorem=ipsum] k
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// ▶ [&lorem=ipsum &foo=bar]
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// ```
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//
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// @cf assoc
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//elvdoc:fn all
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//
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// ```elvish
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// all $input-list?
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// ```
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//
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// Passes inputs to the output as is. Byte inputs into values, one per line.
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//
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// This is an identity function for commands with value outputs: `a | all` is
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// equivalent to `a` if it only outputs values.
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//
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// This function is useful for turning inputs into arguments, like:
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//
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// ```elvish-transcript
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// ~> put 'lorem,ipsum' | splits , (all)
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// ▶ lorem
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// ▶ ipsum
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// ```
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//
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// Or capturing all inputs in a variable:
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//
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// ```elvish-transcript
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// ~> x = [(all)]
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// foo
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// bar
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// (Press ^D)
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// ~> put $x
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// ▶ [foo bar]
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// ```
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//
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// When given a list, it outputs all elements of the list:
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//
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// ```elvish-transcript
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// ~> all [foo bar]
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// ▶ foo
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// ▶ bar
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// ```
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//
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// @cf one
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//elvdoc:fn one
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//
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// ```elvish
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// one $input-list?
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// ```
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//
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// Passes inputs to outputs, if there is only a single one. Otherwise raises an
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// exception.
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//
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// This function can be used in a similar way to [`all`](#all), but is a better
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// choice when you expect that there is exactly one output:
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//
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// @cf all
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//elvdoc:fn has-key
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//
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// ```elvish
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// has-key $container $key
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// ```
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//
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// Determine whether `$key` is a key in `$container`. A key could be a map key or
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// an index on a list or string. This includes a range of indexes.
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//
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// Examples, maps:
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//
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// ```elvish-transcript
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// ~> has-key [&k1=v1 &k2=v2] k1
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// ▶ $true
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// ~> has-key [&k1=v1 &k2=v2] v1
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// ▶ $false
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// ```
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//
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// Examples, lists:
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//
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// ```elvish-transcript
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// ~> has-key [v1 v2] 0
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// ▶ $true
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// ~> has-key [v1 v2] 1
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// ▶ $true
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// ~> has-key [v1 v2] 2
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// ▶ $false
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// ~> has-key [v1 v2] 0:2
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// ▶ $true
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// ~> has-key [v1 v2] 0:3
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// ▶ $false
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// ```
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//
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// Examples, strings:
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//
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// ```elvish-transcript
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// ~> has-key ab 0
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// ▶ $true
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// ~> has-key ab 1
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// ▶ $true
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// ~> has-key ab 2
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// ▶ $false
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// ~> has-key ab 0:2
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// ▶ $true
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// ~> has-key ab 0:3
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// ▶ $false
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// ```
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//elvdoc:fn has-value
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//
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// ```elvish
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// has-value $container $value
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// ```
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//
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// Determine whether `$value` is a value in `$container`.
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//
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// Examples, maps:
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//
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// ```elvish-transcript
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// ~> has-value [&k1=v1 &k2=v2] v1
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// ▶ $true
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// ~> has-value [&k1=v1 &k2=v2] k1
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// ▶ $false
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// ```
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//
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// Examples, lists:
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//
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// ```elvish-transcript
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// ~> has-value [v1 v2] v1
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// ▶ $true
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// ~> has-value [v1 v2] k1
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// ▶ $false
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// ```
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//
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// Examples, strings:
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//
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// ```elvish-transcript
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// ~> has-value ab b
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// ▶ $true
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// ~> has-value ab c
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// ▶ $false
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// ```
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//elvdoc:fn take
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//
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// ```elvish
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// take $n $input-list?
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// ```
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//
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// Retain the first `$n` input elements. If `$n` is larger than the number of input
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// elements, the entire input is retained. Examples:
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//
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// ```elvish-transcript
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// ~> take 3 [a b c d e]
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// ▶ a
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// ▶ b
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// ▶ c
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// ~> splits ' ' 'how are you?' | take 1
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// ▶ how
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// ~> range 2 | take 10
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// ▶ 0
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// ▶ 1
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// ```
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//
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// Etymology: Haskell.
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//elvdoc:fn drop
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//
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// ```elvish
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// drop $n $input-list?
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// ```
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//
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// Drop the first `$n` elements of the input. If `$n` is larger than the number of
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// input elements, the entire input is dropped.
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//
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// Example:
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//
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// ```elvish-transcript
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// ~> drop 2 [a b c d e]
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// ▶ c
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// ▶ d
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// ▶ e
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// ~> splits ' ' 'how are you?' | drop 1
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// ▶ are
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// ▶ 'you?'
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// ~> range 2 | drop 10
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// ```
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//
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// Etymology: Haskell.
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//
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// @cf take
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//elvdoc:fn count
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//
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// ```elvish
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// count $input-list?
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// ```
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//
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// Count the number of inputs.
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//
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// Examples:
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//
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// ```elvish-transcript
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// ~> count lorem # count bytes in a string
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// ▶ 5
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// ~> count [lorem ipsum]
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// ▶ 2
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// ~> range 100 | count
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// ▶ 100
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// ~> seq 100 | count
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// ▶ 100
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// ```
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//elvdoc:fn keys
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//
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// ```elvish
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// keys $map
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// ```
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//
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// Put all keys of `$map` on the structured stdout.
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//
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// Example:
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//
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// ```elvish-transcript
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// ~> keys [&a=foo &b=bar &c=baz]
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// ▶ a
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// ▶ c
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// ▶ b
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// ```
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//
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// Note that there is no guaranteed order for the keys of a map.
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func init() {
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addBuiltinFns(map[string]interface{}{
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"ns": nsFn,
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"make-map": makeMap,
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"range": rangeFn,
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"repeat": repeat,
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"assoc": assoc,
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"dissoc": dissoc,
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"all": all,
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"one": one,
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"has-key": hasKey,
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"has-value": hasValue,
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"take": take,
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"drop": drop,
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"count": count,
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"keys": keys,
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"order": order,
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})
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}
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var errKeyMustBeString = errors.New("key must be string")
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func nsFn(m hashmap.Map) (Ns, error) {
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ns := make(Ns)
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for it := m.Iterator(); it.HasElem(); it.Next() {
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k, v := it.Elem()
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kstring, ok := k.(string)
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if !ok {
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return nil, errKeyMustBeString
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}
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ns[kstring] = vars.FromInit(v)
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}
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return ns, nil
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}
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//elvdoc:fn make-map
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//
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// ```elvish
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// make-map $input?
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// ```
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//
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// Outputs a map from an input consisting of containers with two elements. The
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// first element of each container is used as the key, and the second element is
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// used as the value.
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//
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// If the same key appears multiple times, the last value is used.
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//
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// Examples:
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//
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// ```elvish-transcript
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// ~> make-map [[k v]]
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// ▶ [&k=v]
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// ~> make-map [[k v1] [k v2]]
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// ▶ [&k=v2]
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// ~> put [k1 v1] [k2 v2] | make-map
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// ▶ [&k1=v1 &k2=v2]
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// ~> put aA bB | make-map
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// ▶ [&a=A &b=B]
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// ```
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func makeMap(input Inputs) (vals.Map, error) {
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m := vals.EmptyMap
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var errMakeMap error
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input(func(v interface{}) {
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if errMakeMap != nil {
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return
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}
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if !vals.CanIterate(v) {
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errMakeMap = errs.BadValue{
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What: "input to make-map", Valid: "iterable", Actual: vals.Kind(v)}
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return
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}
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if l := vals.Len(v); l != 2 {
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errMakeMap = errs.BadValue{
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What: "input to make-map", Valid: "iterable with 2 elements",
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Actual: fmt.Sprintf("%v with %v elements", vals.Kind(v), l)}
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return
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}
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elems, err := vals.Collect(v)
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if err != nil {
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errMakeMap = err
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return
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}
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if len(elems) != 2 {
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errMakeMap = fmt.Errorf("internal bug: collected %v values", len(elems))
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return
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}
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m = m.Assoc(elems[0], elems[1])
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})
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return m, errMakeMap
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}
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type rangeOpts struct{ Step float64 }
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func (o *rangeOpts) SetDefaultOptions() { o.Step = 1 }
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func rangeFn(fm *Frame, opts rangeOpts, args ...float64) error {
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var lower, upper float64
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switch len(args) {
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case 1:
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upper = args[0]
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case 2:
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lower, upper = args[0], args[1]
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default:
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return ErrArgs
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}
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out := fm.ports[1].Chan
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for f := lower; f < upper; f += opts.Step {
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out <- vals.FromGo(f)
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}
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return nil
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}
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func repeat(fm *Frame, n int, v interface{}) {
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out := fm.OutputChan()
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for i := 0; i < n; i++ {
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out <- v
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}
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}
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func assoc(a, k, v interface{}) (interface{}, error) {
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return vals.Assoc(a, k, v)
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}
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var errCannotDissoc = errors.New("cannot dissoc")
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func dissoc(a, k interface{}) (interface{}, error) {
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a2 := vals.Dissoc(a, k)
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if a2 == nil {
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return nil, errCannotDissoc
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}
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return a2, nil
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}
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func all(fm *Frame, inputs Inputs) {
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out := fm.ports[1].Chan
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inputs(func(v interface{}) { out <- v })
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}
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func one(fm *Frame, inputs Inputs) error {
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var val interface{}
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n := 0
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inputs(func(v interface{}) {
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if n == 0 {
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val = v
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}
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n++
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})
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if n == 1 {
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fm.OutputChan() <- val
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return nil
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}
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return fmt.Errorf("expect a single value, got %d", n)
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}
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func take(fm *Frame, n int, inputs Inputs) {
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out := fm.ports[1].Chan
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i := 0
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inputs(func(v interface{}) {
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if i < n {
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out <- v
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}
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i++
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})
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}
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func drop(fm *Frame, n int, inputs Inputs) {
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out := fm.ports[1].Chan
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i := 0
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inputs(func(v interface{}) {
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if i >= n {
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out <- v
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}
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i++
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})
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}
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|
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func hasValue(container, value interface{}) (bool, error) {
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switch container := container.(type) {
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case hashmap.Map:
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for it := container.Iterator(); it.HasElem(); it.Next() {
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_, v := it.Elem()
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if vals.Equal(v, value) {
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return true, nil
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}
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}
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return false, nil
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default:
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var found bool
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err := vals.Iterate(container, func(v interface{}) bool {
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found = (v == value)
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return !found
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})
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return found, err
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}
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}
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|
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func hasKey(container, key interface{}) bool {
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return vals.HasKey(container, key)
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}
|
|
|
|
// The count implmentation uses a custom varargs based implementation rather
|
|
// than the more common `Inputs` API (see pkg/eval/go_fn.go) because this
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// allows the implmentation to be O(1) for the common cases rather than O(n).
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func count(fm *Frame, args ...interface{}) (int, error) {
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var n int
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switch nargs := len(args); nargs {
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case 0:
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// Count inputs.
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|
fm.IterateInputs(func(interface{}) {
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n++
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})
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case 1:
|
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// Get length of argument.
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v := args[0]
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if len := vals.Len(v); len >= 0 {
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|
n = len
|
|
} else {
|
|
err := vals.Iterate(v, func(interface{}) bool {
|
|
n++
|
|
return true
|
|
})
|
|
if err != nil {
|
|
return 0, fmt.Errorf("cannot get length of a %s", vals.Kind(v))
|
|
}
|
|
}
|
|
default:
|
|
// The error matches what would be returned if the `Inputs` API was
|
|
// used. See GoFn.Call().
|
|
return 0, errs.ArityMismatch{
|
|
What: "arguments here", ValidLow: 0, ValidHigh: 1, Actual: nargs}
|
|
}
|
|
return n, nil
|
|
}
|
|
|
|
func keys(fm *Frame, v interface{}) error {
|
|
out := fm.ports[1].Chan
|
|
return vals.IterateKeys(v, func(k interface{}) bool {
|
|
out <- k
|
|
return true
|
|
})
|
|
}
|
|
|
|
//elvdoc:fn order
|
|
//
|
|
// ```elvish
|
|
// order &reverse=$false $less-than=$nil $inputs?
|
|
// ```
|
|
//
|
|
// Outputs the input values sorted in ascending order. The sort is guaranteed to
|
|
// be [stable](https://en.wikipedia.org/wiki/Sorting_algorithm#Stability).
|
|
//
|
|
// The `&reverse` option, if true, reverses the order of output.
|
|
//
|
|
// The `&less-than` option, if given, establishes the ordering of the elements.
|
|
// Its value should be a function that takes two arguments and outputs a single
|
|
// boolean indicating whether the first argument is less than the second
|
|
// argument. If the function throws an exception, `order` rethrows the exception
|
|
// without outputting any value.
|
|
//
|
|
// If `&less-than` has value `$nil` (the default if not set), the following
|
|
// comparison algorithm is used:
|
|
//
|
|
// - Numbers are compared numerically. For the sake of sorting, `NaN` is treated
|
|
// as smaller than all other numbers.
|
|
//
|
|
// - Strings are compared lexicographically by bytes, which is equivalent to
|
|
// comparing by codepoints under UTF-8.
|
|
//
|
|
// - Lists are compared lexicographically by elements, if the elements at the
|
|
// same positions are comparable.
|
|
//
|
|
// If the ordering between two elements are not defined by the conditions above,
|
|
// no value is outputted and an exception is thrown.
|
|
//
|
|
// Examples:
|
|
//
|
|
// ```elvish-transcript
|
|
// ~> put foo bar ipsum | order
|
|
// ▶ bar
|
|
// ▶ foo
|
|
// ▶ ipsum
|
|
// ~> order [(float64 10) (float64 1) (float64 5)]
|
|
// ▶ (float64 1)
|
|
// ▶ (float64 5)
|
|
// ▶ (float64 10)
|
|
// ~> order [[a b] [a] [b b] [a c]]
|
|
// ▶ [a]
|
|
// ▶ [a b]
|
|
// ▶ [a c]
|
|
// ▶ [b b]
|
|
// ~> order &reverse [a c b]
|
|
// ▶ c
|
|
// ▶ b
|
|
// ▶ a
|
|
// ~> order &less-than=[a b]{ eq $a x } [l x o r x e x m]
|
|
// ▶ x
|
|
// ▶ x
|
|
// ▶ x
|
|
// ▶ l
|
|
// ▶ o
|
|
// ▶ r
|
|
// ▶ e
|
|
// ▶ m
|
|
// ```
|
|
//
|
|
// Beware that strings that look like numbers are treated as strings, not
|
|
// numbers. To sort strings as numbers, use an explicit `&less-than` option:
|
|
//
|
|
// ```elvish-transcript
|
|
// ~> order [5 1 10]
|
|
// ▶ 1
|
|
// ▶ 10
|
|
// ▶ 5
|
|
// ~> order &less-than=[a b]{ < $a $b } [5 1 10]
|
|
// ▶ 1
|
|
// ▶ 5
|
|
// ▶ 10
|
|
// ```
|
|
|
|
type orderOptions struct {
|
|
Reverse bool
|
|
LessThan Callable
|
|
}
|
|
|
|
func (opt *orderOptions) SetDefaultOptions() {}
|
|
|
|
var errUncomparable = errs.BadValue{
|
|
What: `inputs to "order"`,
|
|
Valid: "comparable values", Actual: "uncomparable values"}
|
|
|
|
func order(fm *Frame, opts orderOptions, inputs Inputs) error {
|
|
var values []interface{}
|
|
inputs(func(v interface{}) { values = append(values, v) })
|
|
|
|
var errSort error
|
|
var lessFn func(i, j int) bool
|
|
if opts.LessThan != nil {
|
|
lessFn = func(i, j int) bool {
|
|
if errSort != nil {
|
|
return true
|
|
}
|
|
var args []interface{}
|
|
if opts.Reverse {
|
|
args = []interface{}{values[j], values[i]}
|
|
} else {
|
|
args = []interface{}{values[i], values[j]}
|
|
}
|
|
outputs, err := fm.CaptureOutput(func(fm *Frame) error {
|
|
return opts.LessThan.Call(fm, args, NoOpts)
|
|
})
|
|
if err != nil {
|
|
errSort = err
|
|
return true
|
|
}
|
|
if len(outputs) != 1 {
|
|
errSort = errs.BadValue{
|
|
What: "output of the &less-than callback",
|
|
Valid: "a single boolean",
|
|
Actual: fmt.Sprintf("%d values", len(outputs))}
|
|
return true
|
|
}
|
|
if b, ok := outputs[0].(bool); ok {
|
|
return b
|
|
}
|
|
errSort = errs.BadValue{
|
|
What: "output of the &less-than callback",
|
|
Valid: "boolean", Actual: vals.Kind(outputs[0])}
|
|
return true
|
|
}
|
|
} else {
|
|
// Use default comparison implemented by compare.
|
|
lessFn = func(i, j int) bool {
|
|
if errSort != nil {
|
|
return true
|
|
}
|
|
o := compare(values[i], values[j])
|
|
if o == uncomparable {
|
|
errSort = errUncomparable
|
|
return true
|
|
}
|
|
if opts.Reverse {
|
|
return o == more
|
|
}
|
|
return o == less
|
|
}
|
|
}
|
|
|
|
sort.SliceStable(values, lessFn)
|
|
|
|
if errSort != nil {
|
|
return errSort
|
|
}
|
|
for _, v := range values {
|
|
fm.OutputChan() <- v
|
|
}
|
|
return nil
|
|
}
|
|
|
|
type ordering uint8
|
|
|
|
const (
|
|
less ordering = iota
|
|
equal
|
|
more
|
|
uncomparable
|
|
)
|
|
|
|
func compare(a, b interface{}) ordering {
|
|
switch a := a.(type) {
|
|
case float64:
|
|
if b, ok := b.(float64); ok {
|
|
switch {
|
|
case math.IsNaN(a):
|
|
if math.IsNaN(b) {
|
|
return equal
|
|
}
|
|
return less
|
|
case math.IsNaN(b):
|
|
return more
|
|
case a == b:
|
|
return equal
|
|
case a < b:
|
|
return less
|
|
default:
|
|
// a > b
|
|
return more
|
|
}
|
|
}
|
|
case string:
|
|
if b, ok := b.(string); ok {
|
|
switch {
|
|
case a == b:
|
|
return equal
|
|
case a < b:
|
|
return less
|
|
default:
|
|
// a > b
|
|
return more
|
|
}
|
|
}
|
|
case vals.List:
|
|
if b, ok := b.(vals.List); ok {
|
|
aIt := a.Iterator()
|
|
bIt := b.Iterator()
|
|
for aIt.HasElem() && bIt.HasElem() {
|
|
o := compare(aIt.Elem(), bIt.Elem())
|
|
if o != equal {
|
|
return o
|
|
}
|
|
aIt.Next()
|
|
bIt.Next()
|
|
}
|
|
switch {
|
|
case a.Len() == b.Len():
|
|
return equal
|
|
case a.Len() < b.Len():
|
|
return less
|
|
default:
|
|
// a.Len() > b.Len()
|
|
return more
|
|
}
|
|
}
|
|
}
|
|
return uncomparable
|
|
}
|