Upgrade fennel to 0.7.0

This commit is contained in:
Jeremy Penner 2020-11-19 22:26:30 -05:00
parent 6e85ecda80
commit cdf4858fae
2 changed files with 3310 additions and 2174 deletions

5078
vendor/jeejah/fennel.lua vendored

File diff suppressed because it is too large Load diff

View file

@ -1,13 +1,13 @@
;; A pretty-printer that outputs tables in Fennel syntax. ;; A pretty-printer that outputs tables in Fennel syntax.
;; Loosely based on inspect.lua: http://github.com/kikito/inspect.lua ;; Loosely based on inspect.lua: http://github.com/kikito/inspect.lua
(local view-quote (fn [str] (.. '"' (: str :gsub '"' '\\"') '"'))) (fn view-quote [str] (.. "\"" (: str :gsub "\"" "\\\"") "\""))
(local short-control-char-escapes (local short-control-char-escapes
{"\a" "\\a" "\b" "\\b" "\f" "\\f" "\n" "\\n" {"\a" "\\a" "\b" "\\b" "\f" "\\f" "\n" "\\n"
"\r" "\\r" "\t" "\\t" "\v" "\\v"}) "\r" "\\r" "\t" "\\t" "\v" "\\v"})
(local long-control-char-esapes (local long-control-char-escapes
(let [long {}] (let [long {}]
(for [i 0 31] (for [i 0 31]
(let [ch (string.char i)] (let [ch (string.char i)]
@ -17,9 +17,10 @@
long)) long))
(fn escape [str] (fn escape [str]
(let [str (: str :gsub "\\" "\\\\") (-> str
str (: str :gsub "(%c)%f[0-9]" long-control-char-esapes)] (: :gsub "\\" "\\\\")
(: str :gsub "%c" short-control-char-escapes))) (: :gsub "(%c)%f[0-9]" long-control-char-escapes)
(: :gsub "%c" short-control-char-escapes)))
(fn sequence-key? [k len] (fn sequence-key? [k len]
(and (= (type k) "number") (and (= (type k) "number")
@ -32,7 +33,7 @@
(fn sort-keys [a b] (fn sort-keys [a b]
(let [ta (type a) tb (type b)] (let [ta (type a) tb (type b)]
(if (and (= ta tb) (~= ta "boolean") (if (and (= ta tb)
(or (= ta "string") (= ta "number"))) (or (= ta "string") (= ta "number")))
(< a b) (< a b)
(let [dta (. type-order a) (let [dta (. type-order a)
@ -58,13 +59,12 @@
(values keys sequence-length))) (values keys sequence-length)))
(fn count-table-appearances [t appearances] (fn count-table-appearances [t appearances]
(if (= (type t) "table") (when (= (type t) "table")
(when (not (. appearances t)) (if (not (. appearances t))
(tset appearances t 1) (do (tset appearances t 1)
(each [k v (pairs t)] (each [k v (pairs t)]
(count-table-appearances k appearances) (count-table-appearances k appearances)
(count-table-appearances v appearances))) (count-table-appearances v appearances)))
(when (and t (= t t)) ; no nans please
(tset appearances t (+ (or (. appearances t) 0) 1)))) (tset appearances t (+ (or (. appearances t) 0) 1))))
appearances) appearances)
@ -78,7 +78,7 @@
(fn tabify [self] (puts self "\n" (: self.indent :rep self.level))) (fn tabify [self] (puts self "\n" (: self.indent :rep self.level)))
(fn already-visited? [self v] (~= (. self.ids v) nil)) (fn already-visited? [self v] (not= (. self.ids v) nil))
(fn get-id [self v] (fn get-id [self v]
(var id (. self.ids v)) (var id (. self.ids v))
@ -89,49 +89,65 @@
(tset self.ids v id))) (tset self.ids v id)))
(tostring id)) (tostring id))
(fn put-sequential-table [self t length] (fn put-sequential-table [self t len]
(puts self "[") (puts self "[")
(set self.level (+ self.level 1)) (set self.level (+ self.level 1))
(for [i 1 length] (for [i 1 len]
(puts self " ") (when (< 1 i (+ 1 len))
(puts self " "))
(put-value self (. t i))) (put-value self (. t i)))
(set self.level (- self.level 1)) (set self.level (- self.level 1))
(puts self "]")) (puts self "]"))
(fn put-key [self k] (fn put-key [self k]
(if (and (= (type k) "string") (if (and (= (type k) "string")
(: k :find "^[-%w?\\^_`!#$%&*+./@~:|<=>]+$")) (: k :find "^[-%w?\\^_!$%&*+./@:|<=>]+$"))
(puts self ":" k) (puts self ":" k)
(put-value self k))) (put-value self k)))
(fn put-kv-table [self t] (fn put-kv-table [self t ordered-keys]
(puts self "{") (puts self "{")
(set self.level (+ self.level 1)) (set self.level (+ self.level 1))
(each [k v (pairs t)] ;; first, output sorted nonsequential keys
(tabify self) (each [i k (ipairs ordered-keys)]
(when (or self.table-edges (not= i 1))
(tabify self))
(put-key self k) (put-key self k)
(puts self " ") (puts self " ")
(put-value self (. t k)))
;; next, output any sequential keys
(each [i v (ipairs t)]
(tabify self)
(put-key self i)
(puts self " ")
(put-value self v)) (put-value self v))
(set self.level (- self.level 1)) (set self.level (- self.level 1))
(tabify self) (when self.table-edges
(tabify self))
(puts self "}")) (puts self "}"))
(fn put-table [self t] (fn put-table [self t]
(if (already-visited? self t) (let [metamethod (and self.metamethod? (-?> t getmetatable (. :__fennelview)))]
(puts self "#<table " (get-id self t) ">") (if (and (already-visited? self t) self.detect-cycles?)
(puts self "#<table @" (get-id self t) ">")
(>= self.level self.depth) (>= self.level self.depth)
(puts self "{...}") (puts self "{...}")
metamethod
(puts self (metamethod t self.fennelview))
:else :else
(let [(non-seq-keys length) (get-nonsequential-keys t) (let [(non-seq-keys len) (get-nonsequential-keys t)
id (get-id self t)] id (get-id self t)]
(if (> (. self.appearances t) 1) ;; fancy metatable stuff can result in self.appearances not including
(puts self "#<" id ">") ;; a table, so if it's not found, assume we haven't seen it; we can't
(and (= (# non-seq-keys) 0) (= (# t) 0)) ;; do cycle detection in that case.
(puts self "{}") (when (and (< 1 (or (. self.appearances t) 0)) self.detect-cycles?)
(= (# non-seq-keys) 0) (puts self "@" id))
(put-sequential-table self t length) (if (and (= (length non-seq-keys) 0) (= (length t) 0))
(puts self (if self.empty-as-square "[]" "{}"))
(= (length non-seq-keys) 0)
(put-sequential-table self t len)
:else :else
(put-kv-table self t))))) (put-kv-table self t non-seq-keys))))))
(set put-value (fn [self v] (set put-value (fn [self v]
(let [tv (type v)] (let [tv (type v)]
@ -146,11 +162,41 @@
(fn fennelview [root options] (fn one-line [str]
;; save return value as local to ignore gsub's extra return value
(let [ret (-> str
(: :gsub "\n" " ")
(: :gsub "%[ " "[") (: :gsub " %]" "]")
(: :gsub "%{ " "{") (: :gsub " %}" "}")
(: :gsub "%( " "(") (: :gsub " %)" ")"))]
ret))
(fn fennelview [x options]
"Return a string representation of x.
Can take an options table with these keys:
* :one-line (boolean: default: false) keep the output string as a one-liner
* :depth (number, default: 128) limit how many levels to go (default: 128)
* :indent (string, default: \" \") use this string to indent each level
* :detect-cycles? (boolean, default: true) don't try to traverse a looping table
* :metamethod? (boolean: default: true) use the __fennelview metamethod if found
* :table-edges (boolean: default: true) put {} table brackets on their own line
* :empty-as-square (boolean: default: false) render empty tables as [], not {}
The __fennelview metamethod should take the table being serialized as its first
argument and a function as its second arg which can be used on table elements to
continue the fennelview process on them.
"
(let [options (or options {}) (let [options (or options {})
inspector {:appearances (count-table-appearances root {}) inspector {:appearances (count-table-appearances x {})
:depth (or options.depth 128) :depth (or options.depth 128)
:level 0 :buffer {} :ids {} :max-ids {} :level 0 :buffer {} :ids {} :max-ids {}
:indent (or options.indent " ")}] :indent (or options.indent (if options.one-line "" " "))
(put-value inspector root) :detect-cycles? (not (= false options.detect-cycles?))
(table.concat inspector.buffer))) :metamethod? (not (= false options.metamethod?))
:fennelview #(fennelview $1 options)
:table-edges (not= options.table-edges false)
:empty-as-square options.empty-as-square}]
(put-value inspector x)
(let [str (table.concat inspector.buffer)]
(if options.one-line (one-line str) str))))