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Merge pull request #966 from uvtc/patch-2

boot.janet docstrings (part 2)
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Calvin Rose 2022-04-19 20:24:32 -05:00 committed by GitHub
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@ -206,7 +206,7 @@
(defmacro case
``Select the body that equals the dispatch value. When `pairs`
is an odd number of arguments, the last is the default expression.
has an odd number of elements, the last is the default expression.
If no match is found, returns nil.``
[dispatch & pairs]
(def atm (idempotent? dispatch))
@ -1147,7 +1147,7 @@
(tuple/slice ret 0)))
(defmacro juxt
"Macro form of juxt*. Same behavior but more efficient."
"Macro form of `juxt*`. Same behavior but more efficient."
[& funs]
(def parts @['tuple])
(def $args (gensym))
@ -1193,8 +1193,8 @@
"Bound to the name of the currently compiling file.")
(defmacro tracev
`Print a value and a description of the form that produced that value to
stderr. Evaluates to x.`
`Print to stderr a value and a description of the form that produced that value.
Evaluates to x.`
[x]
(def [l c] (tuple/sourcemap (dyn *macro-form* ())))
(def cf (dyn *current-file*))
@ -1209,9 +1209,9 @@
,s))
(defmacro ->
`Threading macro. Inserts x as the second value in the first form
in forms, and inserts the modified first form into the second form
in the same manner, and so on. Useful for expressing pipelines of data.`
``Threading macro. Inserts x as the second value in the first form
in `forms`, and inserts the modified first form into the second form
in the same manner, and so on. Useful for expressing pipelines of data.``
[x & forms]
(defn fop [last n]
(def [h t] (if (= :tuple (type n))
@ -1222,9 +1222,9 @@
(reduce fop x forms))
(defmacro ->>
`Threading macro. Inserts x as the last value in the first form
in forms, and inserts the modified first form into the second form
in the same manner, and so on. Useful for expressing pipelines of data.`
``Threading macro. Inserts x as the last value in the first form
in `forms`, and inserts the modified first form into the second form
in the same manner, and so on. Useful for expressing pipelines of data.``
[x & forms]
(defn fop [last n]
(def [h t] (if (= :tuple (type n))
@ -1235,11 +1235,11 @@
(reduce fop x forms))
(defmacro -?>
`Short circuit threading macro. Inserts x as the second value in the first form
in forms, and inserts the modified first form into the second form
``Short circuit threading macro. Inserts x as the second value in the first form
in `forms`, and inserts the modified first form into the second form
in the same manner, and so on. The pipeline will return nil
if an intermediate value is nil.
Useful for expressing pipelines of data.`
Useful for expressing pipelines of data.``
[x & forms]
(defn fop [last n]
(def [h t] (if (= :tuple (type n))
@ -1251,11 +1251,11 @@
(reduce fop x forms))
(defmacro -?>>
`Short circuit threading macro. Inserts x as the last value in the first form
in forms, and inserts the modified first form into the second form
``Short circuit threading macro. Inserts x as the last value in the first form
in `forms`, and inserts the modified first form into the second form
in the same manner, and so on. The pipeline will return nil
if an intermediate value is nil.
Useful for expressing pipelines of data.`
Useful for expressing pipelines of data.``
[x & forms]
(defn fop [last n]
(def [h t] (if (= :tuple (type n))
@ -1300,14 +1300,14 @@
(f (walk (fn [x] (postwalk f x)) form)))
(defn prewalk
"Similar to postwalk, but do pre-order traversal."
"Similar to `postwalk`, but do pre-order traversal."
[f form]
(walk (fn [x] (prewalk f x)) (f form)))
(defmacro as->
`Thread forms together, replacing as in forms with the value
of the previous form. The first for is the value x. Returns the
last value.`
``Thread forms together, replacing `as` in `forms` with the value
of the previous form. The first form is the value x. Returns the
last value.``
[x as & forms]
(var prev x)
(each form forms
@ -1317,10 +1317,10 @@
prev)
(defmacro as?->
`Thread forms together, replacing as in forms with the value
of the previous form. The first for is the value x. If any
``Thread forms together, replacing `as` in `forms` with the value
of the previous form. The first form is the value x. If any
intermediate values are falsey, return nil; otherwise, returns the
last value.`
last value.``
[x as & forms]
(var prev x)
(each form forms
@ -1333,7 +1333,7 @@
`Run a block of code in a new fiber that has some
dynamic bindings set. The fiber will not mask errors
or signals, but the dynamic bindings will be properly
unset, as dynamic bindings are fiber local.`
unset, as dynamic bindings are fiber-local.`
[bindings & body]
(def dyn-forms
(seq [i :range [0 (length bindings) 2]]
@ -1341,8 +1341,8 @@
~(,resume (,fiber/new (fn [] ,;dyn-forms ,;body) :p)))
(defmacro with-vars
`Evaluates body with each var in vars temporarily bound. Similar signature to
let, but each binding must be a var.`
``Evaluates `body` with each var in `vars` temporarily bound. Similar signature to
`let`, but each binding must be a var.``
[vars & body]
(def len (length vars))
(unless (even? len) (error "expected even number of argument to vars"))
@ -1365,8 +1365,8 @@
(fn [& r] (f ;more ;r))))
(defn every?
`Returns true if each value in is truthy, otherwise the first
falsey value.`
``Returns true if each value in `ind` is truthy, otherwise returns the first
falsey value.``
[ind]
(var res true)
(loop [x :in ind :while res]
@ -1374,8 +1374,7 @@
res)
(defn any?
`Returns the first truthy value in ind, otherwise nil.
falsey value.`
``Returns the first truthy value in `ind`, otherwise nil.``
[ind]
(var res nil)
(loop [x :in ind :until res]
@ -1398,7 +1397,8 @@
(defn reverse
`Reverses the order of the elements in a given array or tuple and returns
a new array. If string or buffer is provided function returns array of chars reversed.`
a new array. If a string or buffer is provided, returns an array of its
byte values, reversed.`
[t]
(def len (length t))
(var n (- len 1))
@ -1409,9 +1409,9 @@
ret)
(defn invert
``Returns a table where the keys of an associative data structure
are the values, and the values are the keys. If multiple keys in `ds`
are mapped to the same value, only one of those values will
``Given an associative data structure `ds`, returns a new table where the
keys of `ds` are the values, and the values are the keys. If multiple keys
in `ds` are mapped to the same value, only one of those values will
become a key in the returned table.``
[ds]
(def ret @{})
@ -1435,18 +1435,18 @@
res)
(defn get-in
`Access a value in a nested data structure. Looks into the data structure via
a sequence of keys.`
``Access a value in a nested data structure. Looks into the data structure via
a sequence of keys. If value is not found, and `dflt` is provided, returns `dflt`.``
[ds ks &opt dflt]
(var d ds)
(loop [k :in ks :while (not (nil? d))] (set d (get d k)))
(if (= nil d) dflt d))
(defn update-in
`Update a value in a nested data structure by applying f to the current value.
Looks into the data structure via
a sequence of keys. Missing data structures will be replaced with tables. Returns
the modified, original data structure.`
``Update a value in a nested data structure `ds`. Looks into `ds` via a sequence of keys,
and replaces the value found there with `f` applied to that value.
Missing data structures will be replaced with tables. Returns
the modified, original data structure.``
[ds ks f & args]
(var d ds)
(def len-1 (- (length ks) 1))
@ -1465,10 +1465,9 @@
ds)
(defn put-in
`Put a value into a nested data structure.
Looks into the data structure via
``Put a value into a nested data structure `ds`. Looks into `ds` via
a sequence of keys. Missing data structures will be replaced with tables. Returns
the modified, original data structure.`
the modified, original data structure.``
[ds ks v]
(var d ds)
(def len-1 (- (length ks) 1))
@ -1487,17 +1486,16 @@
ds)
(defn update
``Accepts a key argument and passes its associated value to a function.
The key is then re-associated to the function's return value. Returns the updated
data structure `ds`.``
``For a given key in data structure `ds`, replace its corresponding value with the
result of calling `func` on that value. If `args` are provided, they will be passed
along to `func` as well. Returns `ds`, updated.``
[ds key func & args]
(def old (get ds key))
(put ds key (func old ;args)))
(defn merge-into
"Merges multiple tables/structs into a table. If a key appears in more than one
collection, then later values replace any previous ones.
Returns the original table."
``Merges multiple tables/structs into table `tab`. If a key appears in more than one
collection in `colls`, then later values replace any previous ones. Returns `tab`.``
[tab & colls]
(loop [c :in colls
key :keys c]
@ -1505,9 +1503,9 @@
tab)
(defn merge
`Merges multiple tables/structs to one. If a key appears in more than one
collection, then later values replace any previous ones.
Returns a new table.`
``Merges multiple tables/structs into one new table. If a key appears in more than one
collection in `colls`, then later values replace any previous ones.
Returns the new table.``
[& colls]
(def container @{})
(loop [c :in colls
@ -1546,7 +1544,7 @@
arr)
(defn frequencies
"Get the number of occurrences of each value in a indexed structure."
"Get the number of occurrences of each value in an indexed data structure."
[ind]
(def freqs @{})
(each x ind
@ -1555,9 +1553,10 @@
freqs)
(defn group-by
``Group elements of `ind` by a function `f` and put the results into a table. The keys of
the table are the distinct return values of `f`, and the values are arrays of all elements of `ind`
that are equal to that value.``
``Group elements of `ind` by a function `f` and put the results into a new table. The keys of
the table are the distinct return values from calling `f` on the elements of `ind`. The values
of the table are arrays of all elements of `ind` for which `f` called on the element equals
that corresponding key.``
[f ind]
(def ret @{})
(each x ind
@ -1585,7 +1584,7 @@
ret)
(defn interleave
"Returns an array of the first elements of each col, then the second, etc."
"Returns an array of the first elements of each col, then the second elements, etc."
[& cols]
(def res @[])
(def ncol (length cols))
@ -1597,7 +1596,7 @@
res)
(defn distinct
"Returns an array of the deduplicated values in xs."
"Returns an array of the deduplicated values in `xs`."
[xs]
(def ret @[])
(def seen @{})
@ -1605,8 +1604,8 @@
ret)
(defn flatten-into
`Takes a nested array (tree), and appends the depth first traversal of
that array to an array 'into'. Returns array into.`
``Takes a nested array (tree) `xs` and appends the depth first traversal of
`xs` to array `into`. Returns `into`.``
[into xs]
(each x xs
(if (indexed? x)
@ -1615,22 +1614,22 @@
into)
(defn flatten
`Takes a nested array (tree), and returns the depth first traversal of
that array. Returns a new array.`
``Takes a nested array (tree) `xs` and returns the depth first traversal of
it. Returns a new array.``
[xs]
(flatten-into @[] xs))
(defn kvs
`Takes a table or struct and returns and array of key value pairs
like @[k v k v ...]. Returns a new array.`
``Takes a table or struct and returns and array of key value pairs
like `@[k v k v ...]`. Returns a new array.``
[dict]
(def ret @[])
(loop [k :keys dict] (array/push ret k (in dict k)))
ret)
(defn from-pairs
``Takes a sequence of pairs and creates a table from each pair. The inverse of
`pairs` on a table.``
``Takes a sequence of pairs and creates a table from each pair. It is the inverse of
`pairs` on a table. Returns a new table.``
[ps]
(def ret @{})
(each [k v] ps
@ -1638,8 +1637,8 @@
ret)
(defn interpose
`Returns a sequence of the elements of ind separated by
sep. Returns a new array.`
``Returns a sequence of the elements of `ind` separated by
`sep`. Returns a new array.``
[sep ind]
(def len (length ind))
(def ret (array/new (- (* 2 len) 1)))
@ -1651,8 +1650,8 @@
ret)
(defn partition
`Partition an indexed data structure into tuples
of size n. Returns a new array.`
``Partition an indexed data structure `ind` into tuples
of size `n`. Returns a new array.``
[n ind]
(var i 0) (var nextn n)
(def len (length ind))
@ -1672,8 +1671,7 @@
###
(defn slurp
`Read all data from a file with name path
and then close the file.`
``Read all data from a file with name `path` and then close the file.``
[path]
(def f (file/open path :rb))
(if-not f (error (string "could not open file " path)))
@ -1682,8 +1680,7 @@
contents)
(defn spit
`Write contents to a file at path.
Can optionally append to the file.`
``Write `contents` to a file at `path`. Can optionally append to the file.``
[path contents &opt mode]
(default mode :wb)
(def f (file/open path mode))
@ -1696,7 +1693,7 @@
"Format specifier for the `pp` function")
(defn pp
`Pretty print to stdout or (dyn *out*). The format string used is (dyn *pretty-format* "%q").`
``Pretty-print to stdout or `(dyn *out*)`. The format string used is `(dyn *pretty-format* "%q")`.``
[x]
(printf (dyn *pretty-format* "%q") x)
(flush))