neovim/runtime/lua/vim/shared.lua

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-- Functions shared by Nvim and its test-suite.
--
-- These are "pure" lua functions not depending of the state of the editor.
-- Thus they should always be available whenever nvim-related lua code is run,
-- regardless if it is code in the editor itself, or in worker threads/processes,
-- or the test suite. (Eventually the test suite will be run in a worker process,
-- so this wouldn't be a separate case to consider)
---@nodoc
---@diagnostic disable-next-line: lowercase-global
vim = vim or {}
---@generic T
---@param orig T
---@param cache? table<any,any>
---@return T
local function deepcopy(orig, cache)
if orig == vim.NIL then
return vim.NIL
elseif type(orig) == 'userdata' or type(orig) == 'thread' then
error('Cannot deepcopy object of type ' .. type(orig))
elseif type(orig) ~= 'table' then
return orig
end
--- @cast orig table<any,any>
if cache and cache[orig] then
return cache[orig]
end
local copy = {} --- @type table<any,any>
if cache then
cache[orig] = copy
end
for k, v in pairs(orig) do
copy[deepcopy(k, cache)] = deepcopy(v, cache)
end
return setmetatable(copy, getmetatable(orig))
end
--- Returns a deep copy of the given object. Non-table objects are copied as
--- in a typical Lua assignment, whereas table objects are copied recursively.
--- Functions are naively copied, so functions in the copied table point to the
--- same functions as those in the input table. Userdata and threads are not
--- copied and will throw an error.
---
--- Note: `noref=true` is much more performant on tables with unique table
--- fields, while `noref=false` is more performant on tables that reuse table
--- fields.
---
---@generic T: table
---@param orig T Table to copy
---@param noref? boolean
--- When `false` (default) a contained table is only copied once and all
--- references point to this single copy. When `true` every occurrence of a
--- table results in a new copy. This also means that a cyclic reference can
--- cause `deepcopy()` to fail.
---@return T Table of copied keys and (nested) values.
function vim.deepcopy(orig, noref)
return deepcopy(orig, not noref and {} or nil)
end
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--- @class vim.gsplit.Opts
--- @inlinedoc
---
--- Use `sep` literally (as in string.find).
--- @field plain? boolean
---
--- Discard empty segments at start and end of the sequence.
--- @field trimempty? boolean
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--- Gets an |iterator| that splits a string at each instance of a separator, in "lazy" fashion
--- (as opposed to |vim.split()| which is "eager").
---
--- Example:
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---
--- ```lua
--- for s in vim.gsplit(':aa::b:', ':', {plain=true}) do
--- print(s)
--- end
--- ```
---
--- If you want to also inspect the separator itself (instead of discarding it), use
--- |string.gmatch()|. Example:
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---
--- ```lua
--- for word, num in ('foo111bar222'):gmatch('([^0-9]*)(%d*)') do
--- print(('word: %s num: %s'):format(word, num))
--- end
--- ```
---
--- @see |string.gmatch()|
--- @see |vim.split()|
--- @see |lua-patterns|
--- @see https://www.lua.org/pil/20.2.html
--- @see http://lua-users.org/wiki/StringLibraryTutorial
---
--- @param s string String to split
--- @param sep string Separator or pattern
--- @param opts? vim.gsplit.Opts Keyword arguments |kwargs|:
--- @return fun():string? : Iterator over the split components
function vim.gsplit(s, sep, opts)
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local plain --- @type boolean?
local trimempty = false
if type(opts) == 'boolean' then
plain = opts -- For backwards compatibility.
else
vim.validate({ s = { s, 's' }, sep = { sep, 's' }, opts = { opts, 't', true } })
opts = opts or {}
plain, trimempty = opts.plain, opts.trimempty
end
local start = 1
local done = false
-- For `trimempty`: queue of collected segments, to be emitted at next pass.
local segs = {}
local empty_start = true -- Only empty segments seen so far.
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--- @param i integer?
--- @param j integer
--- @param ... unknown
--- @return string
--- @return ...
local function _pass(i, j, ...)
if i then
assert(j + 1 > start, 'Infinite loop detected')
local seg = s:sub(start, i - 1)
start = j + 1
return seg, ...
else
done = true
return s:sub(start)
end
end
return function()
if trimempty and #segs > 0 then
-- trimempty: Pop the collected segments.
return table.remove(segs)
elseif done or (s == '' and sep == '') then
return nil
elseif sep == '' then
if start == #s then
done = true
end
return _pass(start + 1, start)
end
local seg = _pass(s:find(sep, start, plain))
-- Trim empty segments from start/end.
if trimempty and seg ~= '' then
empty_start = false
elseif trimempty and seg == '' then
while not done and seg == '' do
table.insert(segs, 1, '')
seg = _pass(s:find(sep, start, plain))
end
if done and seg == '' then
return nil
elseif empty_start then
empty_start = false
segs = {}
return seg
end
if seg ~= '' then
table.insert(segs, 1, seg)
end
return table.remove(segs)
end
return seg
end
end
--- Splits a string at each instance of a separator and returns the result as a table (unlike
--- |vim.gsplit()|).
---
--- Examples:
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---
--- ```lua
--- split(":aa::b:", ":") --> {'','aa','','b',''}
--- split("axaby", "ab?") --> {'','x','y'}
--- split("x*yz*o", "*", {plain=true}) --> {'x','yz','o'}
--- split("|x|y|z|", "|", {trimempty=true}) --> {'x', 'y', 'z'}
--- ```
---
---@see |vim.gsplit()|
---@see |string.gmatch()|
---
---@param s string String to split
---@param sep string Separator or pattern
---@param opts? vim.gsplit.Opts Keyword arguments |kwargs|:
---@return string[] : List of split components
function vim.split(s, sep, opts)
local t = {}
for c in vim.gsplit(s, sep, opts) do
table.insert(t, c)
end
return t
end
--- Return a list of all keys used in a table.
--- However, the order of the return table of keys is not guaranteed.
---
---@see From https://github.com/premake/premake-core/blob/master/src/base/table.lua
---
---@generic T
---@param t table<T, any> (table) Table
---@return T[] : List of keys
function vim.tbl_keys(t)
vim.validate('t', t, 'table')
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--- @cast t table<any,any>
local keys = {}
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for k in pairs(t) do
table.insert(keys, k)
end
return keys
end
--- Return a list of all values used in a table.
--- However, the order of the return table of values is not guaranteed.
---
---@generic T
---@param t table<any, T> (table) Table
---@return T[] : List of values
function vim.tbl_values(t)
vim.validate('t', t, 'table')
local values = {}
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for _, v in
pairs(t --[[@as table<any,any>]])
do
table.insert(values, v)
end
return values
end
--- Apply a function to all values of a table.
---
---@generic T
---@param func fun(value: T): any Function
---@param t table<any, T> Table
---@return table : Table of transformed values
function vim.tbl_map(func, t)
vim.validate({ func = { func, 'c' }, t = { t, 't' } })
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--- @cast t table<any,any>
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local rettab = {} --- @type table<any,any>
for k, v in pairs(t) do
rettab[k] = func(v)
end
return rettab
end
--- Filter a table using a predicate function
---
---@generic T
---@param func fun(value: T): boolean (function) Function
---@param t table<any, T> (table) Table
---@return T[] : Table of filtered values
function vim.tbl_filter(func, t)
vim.validate({ func = { func, 'c' }, t = { t, 't' } })
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--- @cast t table<any,any>
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local rettab = {} --- @type table<any,any>
for _, entry in pairs(t) do
if func(entry) then
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rettab[#rettab + 1] = entry
end
end
return rettab
end
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--- @class vim.tbl_contains.Opts
--- @inlinedoc
---
--- `value` is a function reference to be checked (default false)
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--- @field predicate? boolean
--- Checks if a table contains a given value, specified either directly or via
--- a predicate that is checked for each value.
---
--- Example:
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---
--- ```lua
--- vim.tbl_contains({ 'a', { 'b', 'c' } }, function(v)
--- return vim.deep_equal(v, { 'b', 'c' })
--- end, { predicate = true })
--- -- true
--- ```
---
---@see |vim.list_contains()| for checking values in list-like tables
---
---@param t table Table to check
---@param value any Value to compare or predicate function reference
---@param opts? vim.tbl_contains.Opts Keyword arguments |kwargs|:
---@return boolean `true` if `t` contains `value`
function vim.tbl_contains(t, value, opts)
vim.validate({ t = { t, 't' }, opts = { opts, 't', true } })
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--- @cast t table<any,any>
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local pred --- @type fun(v: any): boolean?
if opts and opts.predicate then
vim.validate({ value = { value, 'c' } })
pred = value
else
pred = function(v)
return v == value
end
end
for _, v in pairs(t) do
if pred(v) then
return true
end
end
return false
end
--- Checks if a list-like table (integer keys without gaps) contains `value`.
---
---@see |vim.tbl_contains()| for checking values in general tables
---
---@param t table Table to check (must be list-like, not validated)
---@param value any Value to compare
---@return boolean `true` if `t` contains `value`
function vim.list_contains(t, value)
vim.validate('t', t, 'table')
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--- @cast t table<any,any>
for _, v in ipairs(t) do
if v == value then
return true
end
end
return false
end
--- Checks if a table is empty.
---
---@see https://github.com/premake/premake-core/blob/master/src/base/table.lua
---
---@param t table Table to check
---@return boolean `true` if `t` is empty
function vim.tbl_isempty(t)
vim.validate('t', t, 'table')
return next(t) == nil
end
--- We only merge empty tables or tables that are not list-like (indexed by consecutive integers
--- starting from 1)
local function can_merge(v)
return type(v) == 'table' and (vim.tbl_isempty(v) or not vim.islist(v))
end
--- Recursive worker for tbl_extend
--- @param behavior 'error'|'keep'|'force'
--- @param deep_extend boolean
--- @param ... table<any,any>
local function tbl_extend_rec(behavior, deep_extend, ...)
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local ret = {} --- @type table<any,any>
if vim._empty_dict_mt ~= nil and getmetatable(select(1, ...)) == vim._empty_dict_mt then
ret = vim.empty_dict()
end
for i = 1, select('#', ...) do
local tbl = select(i, ...) --[[@as table<any,any>]]
if tbl then
for k, v in pairs(tbl) do
if deep_extend and can_merge(v) and can_merge(ret[k]) then
ret[k] = tbl_extend_rec(behavior, true, ret[k], v)
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elseif behavior ~= 'force' and ret[k] ~= nil then
if behavior == 'error' then
error('key found in more than one map: ' .. k)
end -- Else behavior is "keep".
else
ret[k] = v
end
end
end
end
return ret
end
--- @param behavior 'error'|'keep'|'force'
--- @param deep_extend boolean
--- @param ... table<any,any>
local function tbl_extend(behavior, deep_extend, ...)
if behavior ~= 'error' and behavior ~= 'keep' and behavior ~= 'force' then
error('invalid "behavior": ' .. tostring(behavior))
end
local nargs = select('#', ...)
if nargs < 2 then
error(('wrong number of arguments (given %d, expected at least 3)'):format(1 + nargs))
end
for i = 1, nargs do
vim.validate('after the second argument', select(i, ...), 'table')
end
return tbl_extend_rec(behavior, deep_extend, ...)
end
--- Merges two or more tables.
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---
---@see |extend()|
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---
---@param behavior 'error'|'keep'|'force' Decides what to do if a key is found in more than one map:
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--- - "error": raise an error
--- - "keep": use value from the leftmost map
--- - "force": use value from the rightmost map
---@param ... table Two or more tables
---@return table : Merged table
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function vim.tbl_extend(behavior, ...)
return tbl_extend(behavior, false, ...)
end
--- Merges recursively two or more tables.
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---
--- Only values that are empty tables or tables that are not |lua-list|s (indexed by consecutive
--- integers starting from 1) are merged recursively. This is useful for merging nested tables
--- like default and user configurations where lists should be treated as literals (i.e., are
--- overwritten instead of merged).
---
---@see |vim.tbl_extend()|
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---
---@generic T1: table
---@generic T2: table
---@param behavior 'error'|'keep'|'force' Decides what to do if a key is found in more than one map:
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--- - "error": raise an error
--- - "keep": use value from the leftmost map
--- - "force": use value from the rightmost map
---@param ... T2 Two or more tables
---@return T1|T2 (table) Merged table
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function vim.tbl_deep_extend(behavior, ...)
return tbl_extend(behavior, true, ...)
end
--- Deep compare values for equality
---
--- Tables are compared recursively unless they both provide the `eq` metamethod.
--- All other types are compared using the equality `==` operator.
---@param a any First value
---@param b any Second value
---@return boolean `true` if values are equals, else `false`
function vim.deep_equal(a, b)
if a == b then
return true
end
if type(a) ~= type(b) then
return false
end
if type(a) == 'table' then
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--- @cast a table<any,any>
--- @cast b table<any,any>
for k, v in pairs(a) do
if not vim.deep_equal(v, b[k]) then
return false
end
end
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for k in pairs(b) do
if a[k] == nil then
return false
end
end
return true
end
return false
end
--- Add the reverse lookup values to an existing table.
--- For example:
--- `tbl_add_reverse_lookup { A = 1 } == { [1] = 'A', A = 1 }`
---
--- Note that this *modifies* the input.
---@deprecated
---@param o table Table to add the reverse to
---@return table o
function vim.tbl_add_reverse_lookup(o)
vim.deprecate('vim.tbl_add_reverse_lookup', nil, '0.12')
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--- @cast o table<any,any>
--- @type any[]
local keys = vim.tbl_keys(o)
for _, k in ipairs(keys) do
local v = o[k]
if o[v] then
error(
string.format(
'The reverse lookup found an existing value for %q while processing key %q',
tostring(v),
tostring(k)
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)
)
end
o[v] = k
end
return o
end
--- Index into a table (first argument) via string keys passed as subsequent arguments.
--- Return `nil` if the key does not exist.
---
--- Examples:
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---
--- ```lua
--- vim.tbl_get({ key = { nested_key = true }}, 'key', 'nested_key') == true
--- vim.tbl_get({ key = {}}, 'key', 'nested_key') == nil
--- ```
---
---@param o table Table to index
---@param ... any Optional keys (0 or more, variadic) via which to index the table
---@return any # Nested value indexed by key (if it exists), else nil
function vim.tbl_get(o, ...)
local keys = { ... }
if #keys == 0 then
return nil
end
for i, k in ipairs(keys) do
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o = o[k] --- @type any
if o == nil then
return nil
elseif type(o) ~= 'table' and next(keys, i) then
return nil
end
end
return o
end
--- Extends a list-like table with the values of another list-like table.
---
--- NOTE: This mutates dst!
---
---@see |vim.tbl_extend()|
---
---@generic T: table
---@param dst T List which will be modified and appended to
---@param src table List from which values will be inserted
---@param start integer? Start index on src. Defaults to 1
---@param finish integer? Final index on src. Defaults to `#src`
---@return T dst
function vim.list_extend(dst, src, start, finish)
vim.validate({
dst = { dst, 't' },
src = { src, 't' },
start = { start, 'n', true },
finish = { finish, 'n', true },
})
for i = start or 1, finish or #src do
table.insert(dst, src[i])
end
return dst
end
--- @deprecated
--- Creates a copy of a list-like table such that any nested tables are
--- "unrolled" and appended to the result.
---
---@see From https://github.com/premake/premake-core/blob/master/src/base/table.lua
---
---@param t table List-like table
---@return table Flattened copy of the given list-like table
function vim.tbl_flatten(t)
vim.deprecate('vim.tbl_flatten', 'vim.iter(…):flatten():totable()', '0.13')
local result = {}
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--- @param _t table<any,any>
local function _tbl_flatten(_t)
local n = #_t
for i = 1, n do
local v = _t[i]
if type(v) == 'table' then
_tbl_flatten(v)
elseif v then
table.insert(result, v)
end
end
end
_tbl_flatten(t)
return result
end
--- Enumerates key-value pairs of a table, ordered by key.
---
---@see Based on https://github.com/premake/premake-core/blob/master/src/base/table.lua
---
---@generic T: table, K, V
---@param t T Dict-like table
---@return fun(table: table<K, V>, index?: K):K, V # |for-in| iterator over sorted keys and their values
---@return T
function vim.spairs(t)
vim.validate('t', t, 'table')
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--- @cast t table<any,any>
-- collect the keys
local keys = {}
for k in pairs(t) do
table.insert(keys, k)
end
table.sort(keys)
-- Return the iterator function.
local i = 0
return function()
i = i + 1
if keys[i] then
return keys[i], t[keys[i]]
end
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end,
t
end
--- Tests if `t` is an "array": a table indexed _only_ by integers (potentially non-contiguous).
---
--- If the indexes start from 1 and are contiguous then the array is also a list. |vim.islist()|
---
--- Empty table `{}` is an array, unless it was created by |vim.empty_dict()| or returned as
--- a dict-like |API| or Vimscript result, for example from |rpcrequest()| or |vim.fn|.
---
---@see https://github.com/openresty/luajit2#tableisarray
---
---@param t? table
---@return boolean `true` if array-like table, else `false`.
function vim.isarray(t)
if type(t) ~= 'table' then
return false
end
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--- @cast t table<any,any>
local count = 0
for k, _ in pairs(t) do
-- Check if the number k is an integer
if type(k) == 'number' and k == math.floor(k) then
count = count + 1
else
return false
end
end
if count > 0 then
return true
else
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-- TODO(bfredl): in the future, we will always be inside nvim
-- then this check can be deleted.
if vim._empty_dict_mt == nil then
return false
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end
return getmetatable(t) ~= vim._empty_dict_mt
end
end
--- @deprecated
function vim.tbl_islist(t)
vim.deprecate('vim.tbl_islist', 'vim.islist', '0.12')
return vim.islist(t)
end
--- Tests if `t` is a "list": a table indexed _only_ by contiguous integers starting from 1 (what
--- |lua-length| calls a "regular array").
---
--- Empty table `{}` is a list, unless it was created by |vim.empty_dict()| or returned as
--- a dict-like |API| or Vimscript result, for example from |rpcrequest()| or |vim.fn|.
---
---@see |vim.isarray()|
---
---@param t? table
---@return boolean `true` if list-like table, else `false`.
function vim.islist(t)
if type(t) ~= 'table' then
return false
end
if next(t) == nil then
return getmetatable(t) ~= vim._empty_dict_mt
end
local j = 1
for _ in
pairs(t--[[@as table<any,any>]])
do
if t[j] == nil then
return false
end
j = j + 1
end
return true
end
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--- Counts the number of non-nil values in table `t`.
---
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--- ```lua
--- vim.tbl_count({ a=1, b=2 }) --> 2
--- vim.tbl_count({ 1, 2 }) --> 2
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--- ```
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---
---@see https://github.com/Tieske/Penlight/blob/master/lua/pl/tablex.lua
---@param t table Table
---@return integer : Number of non-nil values in table
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function vim.tbl_count(t)
vim.validate('t', t, 'table')
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--- @cast t table<any,any>
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local count = 0
for _ in pairs(t) do
count = count + 1
end
return count
end
--- Creates a copy of a table containing only elements from start to end (inclusive)
---
---@generic T
---@param list T[] Table
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---@param start integer|nil Start range of slice
---@param finish integer|nil End range of slice
---@return T[] Copy of table sliced from start to finish (inclusive)
function vim.list_slice(list, start, finish)
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local new_list = {} --- @type `T`[]
for i = start or 1, finish or #list do
new_list[#new_list + 1] = list[i]
end
return new_list
end
--- Trim whitespace (Lua pattern "%s") from both sides of a string.
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---
---@see |lua-patterns|
---@see https://www.lua.org/pil/20.2.html
---@param s string String to trim
---@return string String with whitespace removed from its beginning and end
function vim.trim(s)
vim.validate('s', s, 'string')
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return s:match('^%s*(.*%S)') or ''
end
--- Escapes magic chars in |lua-patterns|.
---
---@see https://github.com/rxi/lume
---@param s string String to escape
---@return string %-escaped pattern string
function vim.pesc(s)
vim.validate('s', s, 'string')
return (s:gsub('[%(%)%.%%%+%-%*%?%[%]%^%$]', '%%%1'))
end
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--- Tests if `s` starts with `prefix`.
---
---@param s string String
---@param prefix string Prefix to match
---@return boolean `true` if `prefix` is a prefix of `s`
function vim.startswith(s, prefix)
vim.validate('s', s, 'string')
vim.validate('prefix', prefix, 'string')
return s:sub(1, #prefix) == prefix
end
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--- Tests if `s` ends with `suffix`.
---
---@param s string String
---@param suffix string Suffix to match
---@return boolean `true` if `suffix` is a suffix of `s`
function vim.endswith(s, suffix)
vim.validate('s', s, 'string')
vim.validate('suffix', suffix, 'string')
return #suffix == 0 or s:sub(-#suffix) == suffix
end
do
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--- @alias vim.validate.Type
--- | 't' | 'table'
--- | 's' | 'string'
--- | 'n' | 'number'
--- | 'f' | 'function'
--- | 'c' | 'callable'
--- | 'nil'
--- | 'thread'
--- | 'userdata
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local type_names = {
['table'] = 'table',
t = 'table',
['string'] = 'string',
s = 'string',
['number'] = 'number',
n = 'number',
['boolean'] = 'boolean',
b = 'boolean',
['function'] = 'function',
f = 'function',
['callable'] = 'callable',
c = 'callable',
['nil'] = 'nil',
['thread'] = 'thread',
['userdata'] = 'userdata',
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}
--- @nodoc
--- @class vim.validate.Spec [any, string|string[], boolean]
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--- @field [1] any Argument value
--- @field [2] string|string[]|fun(v:any):boolean, string? Type name, or callable
--- @field [3]? boolean
local function _is_type(val, t)
lsp: vim.lsp.diagnostic (#12655) Breaking Changes: - Deprecated all `vim.lsp.util.{*diagnostics*}()` functions. - Instead, all functions must be found in vim.lsp.diagnostic - For now, they issue a warning ONCE per neovim session. In a "little while" we will remove them completely. - `vim.lsp.callbacks` has moved to `vim.lsp.handlers`. - For a "little while" we will just redirect `vim.lsp.callbacks` to `vim.lsp.handlers`. However, we will remove this at some point, so it is recommended that you change all of your references to `callbacks` into `handlers`. - This also means that for functions like |vim.lsp.start_client()| and similar, keyword style arguments have moved from "callbacks" to "handlers". Once again, these are currently being forward, but will cease to be forwarded in a "little while". - Changed the highlight groups for LspDiagnostic highlight as they were inconsistently named. - For more information, see |lsp-highlight-diagnostics| - Changed the sign group names as well, to be consistent with |lsp-highlight-diagnostics| General Enhancements: - Rewrote much of the getting started help document for lsp. It also provides a much nicer configuration strategy, so as to not recommend globally overwriting builtin neovim mappings. LSP Enhancements: - Introduced the concept of |lsp-handlers| which will allow much better customization for users without having to copy & paste entire files / functions / etc. Diagnostic Enhancements: - "goto next diagnostic" |vim.lsp.diagnostic.goto_next()| - "goto prev diagnostic" |vim.lsp.diagnostic.goto_prev()| - For each of the gotos, auto open diagnostics is available as a configuration option - Configurable diagnostic handling: - See |vim.lsp.diagnostic.on_publish_diagnostics()| - Delay display until after insert mode - Configure signs - Configure virtual text - Configure underline - Set the location list with the buffers diagnostics. - See |vim.lsp.diagnostic.set_loclist()| - Better performance for getting counts and line diagnostics - They are now cached on save, to enhance lookups. - Particularly useful for checking in statusline, etc. - Actual testing :) - See ./test/functional/plugin/lsp/diagnostic_spec.lua - Added `guisp` for underline highlighting NOTE: "a little while" means enough time to feel like most plugins and plugin authors have had a chance to refactor their code to use the updated calls. Then we will remove them completely. There is no need to keep them, because we don't have any released version of neovim that exposes these APIs. I'm trying to be nice to people following HEAD :) Co-authored: [Twitch Chat 2020](https://twitch.tv/teej_dv)
2020-11-12 20:21:34 -07:00
return type(val) == t or (t == 'callable' and vim.is_callable(val))
end
--- @param param_name string
--- @param spec vim.validate.Spec
--- @return string?
local function is_param_valid(param_name, spec)
if type(spec) ~= 'table' then
return string.format('opt[%s]: expected table, got %s', param_name, type(spec))
end
local val = spec[1] -- Argument value
local types = spec[2] -- Type name, or callable
local optional = (true == spec[3])
if type(types) == 'string' then
types = { types }
end
if vim.is_callable(types) then
-- Check user-provided validation function
local valid, optional_message = types(val)
if not valid then
local error_message =
string.format('%s: expected %s, got %s', param_name, (spec[3] or '?'), tostring(val))
if optional_message ~= nil then
error_message = string.format('%s. Info: %s', error_message, optional_message)
end
return error_message
end
elseif type(types) == 'table' then
local success = false
for i, t in ipairs(types) do
local t_name = type_names[t]
if not t_name then
return string.format('invalid type name: %s', t)
end
types[i] = t_name
if (optional and val == nil) or _is_type(val, t_name) then
success = true
break
end
end
if not success then
return string.format(
'%s: expected %s, got %s',
param_name,
table.concat(types, '|'),
type(val)
)
end
else
return string.format('invalid type name: %s', tostring(types))
end
end
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--- @param opt table<vim.validate.Type,vim.validate.Spec>
--- @return boolean, string?
local function is_valid(opt)
if type(opt) ~= 'table' then
return false, string.format('opt: expected table, got %s', type(opt))
end
local report --- @type table<string,string>?
for param_name, spec in pairs(opt) do
local msg = is_param_valid(param_name, spec)
if msg then
report = report or {}
report[param_name] = msg
end
end
if report then
for _, msg in vim.spairs(report) do -- luacheck: ignore
return false, msg
end
end
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return true
end
--- Validate function arguments.
---
--- This function has two valid forms:
---
--- 1. vim.validate(name: str, value: any, type: string, optional?: bool)
--- 2. vim.validate(spec: table)
---
--- Form 1 validates that argument {name} with value {value} has the type
--- {type}. {type} must be a value returned by |lua-type()|. If {optional} is
--- true, then {value} may be null. This form is significantly faster and
--- should be preferred for simple cases.
---
--- Example:
---
--- ```lua
--- function vim.startswith(s, prefix)
--- vim.validate('s', s, 'string')
--- vim.validate('prefix', prefix, 'string')
--- ...
--- end
--- ```
---
--- Form 2 validates a parameter specification (types and values). Specs are
--- evaluated in alphanumeric order, until the first failure.
---
--- Usage example:
---
--- ```lua
--- function user.new(name, age, hobbies)
--- vim.validate{
--- name={name, 'string'},
--- age={age, 'number'},
--- hobbies={hobbies, 'table'},
--- }
--- ...
--- end
--- ```
---
--- Examples with explicit argument values (can be run directly):
---
--- ```lua
--- vim.validate{arg1={{'foo'}, 'table'}, arg2={'foo', 'string'}}
--- --> NOP (success)
---
--- vim.validate{arg1={1, 'table'}}
--- --> error('arg1: expected table, got number')
---
--- vim.validate{arg1={3, function(a) return (a % 2) == 0 end, 'even number'}}
--- --> error('arg1: expected even number, got 3')
--- ```
---
--- If multiple types are valid they can be given as a list.
---
--- ```lua
--- vim.validate{arg1={{'foo'}, {'table', 'string'}}, arg2={'foo', {'table', 'string'}}}
--- -- NOP (success)
---
--- vim.validate{arg1={1, {'string', 'table'}}}
--- -- error('arg1: expected string|table, got number')
--- ```
---
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---@param opt table<vim.validate.Type,vim.validate.Spec> (table) Names of parameters to validate. Each key is a parameter
--- name; each value is a tuple in one of these forms:
--- 1. (arg_value, type_name, optional)
--- - arg_value: argument value
--- - type_name: string|table type name, one of: ("table", "t", "string",
--- "s", "number", "n", "boolean", "b", "function", "f", "nil",
--- "thread", "userdata") or list of them.
--- - optional: (optional) boolean, if true, `nil` is valid
--- 2. (arg_value, fn, msg)
--- - arg_value: argument value
--- - fn: any function accepting one argument, returns true if and
--- only if the argument is valid. Can optionally return an additional
--- informative error message as the second returned value.
--- - msg: (optional) error string if validation fails
--- @overload fun(name: string, val: any, expected: string, optional?: boolean)
function vim.validate(opt, ...)
local ok = false
local err_msg ---@type string?
local narg = select('#', ...)
if narg == 0 then
ok, err_msg = is_valid(opt)
elseif narg >= 2 then
-- Overloaded signature for fast/simple cases
local name = opt --[[@as string]]
local v, expected, optional = ... ---@type string, string, boolean?
local actual = type(v)
ok = (actual == expected) or (v == nil and optional == true)
if not ok then
err_msg = ('%s: expected %s, got %s%s'):format(
name,
expected,
actual,
v and (' (%s)'):format(v) or ''
)
end
else
error('invalid arguments')
end
if not ok then
error(err_msg, 2)
end
end
end
--- Returns true if object `f` can be called as a function.
---
---@param f any Any object
---@return boolean `true` if `f` is callable, else `false`
function vim.is_callable(f)
if type(f) == 'function' then
return true
end
local m = getmetatable(f)
if m == nil then
return false
end
return type(rawget(m, '__call')) == 'function'
end
--- Creates a table whose missing keys are provided by {createfn} (like Python's "defaultdict").
---
--- If {createfn} is `nil` it defaults to defaulttable() itself, so accessing nested keys creates
--- nested tables:
---
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--- ```lua
--- local a = vim.defaulttable()
--- a.b.c = 1
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--- ```
---
---@param createfn? fun(key:any):any Provides the value for a missing `key`.
---@return table # Empty table with `__index` metamethod.
function vim.defaulttable(createfn)
createfn = createfn or function(_)
return vim.defaulttable()
end
return setmetatable({}, {
__index = function(tbl, key)
rawset(tbl, key, createfn(key))
return rawget(tbl, key)
end,
})
end
do
---@class vim.Ringbuf<T>
---@field private _items table[]
---@field private _idx_read integer
---@field private _idx_write integer
---@field private _size integer
---@overload fun(self): table?
local Ringbuf = {}
--- Clear all items
function Ringbuf.clear(self)
self._items = {}
self._idx_read = 0
self._idx_write = 0
end
--- Adds an item, overriding the oldest item if the buffer is full.
---@generic T
---@param item T
function Ringbuf.push(self, item)
self._items[self._idx_write] = item
self._idx_write = (self._idx_write + 1) % self._size
if self._idx_write == self._idx_read then
self._idx_read = (self._idx_read + 1) % self._size
end
end
--- Removes and returns the first unread item
---@generic T
---@return T?
function Ringbuf.pop(self)
local idx_read = self._idx_read
if idx_read == self._idx_write then
return nil
end
local item = self._items[idx_read]
self._items[idx_read] = nil
self._idx_read = (idx_read + 1) % self._size
return item
end
--- Returns the first unread item without removing it
---@generic T
---@return T?
function Ringbuf.peek(self)
if self._idx_read == self._idx_write then
return nil
end
return self._items[self._idx_read]
end
--- Create a ring buffer limited to a maximal number of items.
--- Once the buffer is full, adding a new entry overrides the oldest entry.
---
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--- ```lua
--- local ringbuf = vim.ringbuf(4)
--- ringbuf:push("a")
--- ringbuf:push("b")
--- ringbuf:push("c")
--- ringbuf:push("d")
--- ringbuf:push("e") -- overrides "a"
--- print(ringbuf:pop()) -- returns "b"
--- print(ringbuf:pop()) -- returns "c"
---
--- -- Can be used as iterator. Pops remaining items:
--- for val in ringbuf do
--- print(val)
--- end
2023-09-14 06:23:01 -07:00
--- ```
---
--- Returns a Ringbuf instance with the following methods:
---
--- - |Ringbuf:push()|
--- - |Ringbuf:pop()|
--- - |Ringbuf:peek()|
--- - |Ringbuf:clear()|
---
---@param size integer
---@return vim.Ringbuf ringbuf
function vim.ringbuf(size)
local ringbuf = {
_items = {},
_size = size + 1,
_idx_read = 0,
_idx_write = 0,
}
return setmetatable(ringbuf, {
__index = Ringbuf,
__call = function(self)
return self:pop()
end,
})
end
end
--- @private
--- @generic T
--- @param root string
--- @param mod T
--- @return T
function vim._defer_require(root, mod)
return setmetatable({}, {
---@param t table<string, any>
---@param k string
__index = function(t, k)
if not mod[k] then
return
end
local name = string.format('%s.%s', root, k)
t[k] = require(name)
return t[k]
end,
})
end
--- @nodoc
--- @class vim.context.mods
--- @field bo? table<string, any>
--- @field buf? integer
--- @field emsg_silent? boolean
--- @field env? table<string, any>
--- @field go? table<string, any>
--- @field hide? boolean
--- @field keepalt? boolean
--- @field keepjumps? boolean
--- @field keepmarks? boolean
--- @field keeppatterns? boolean
--- @field lockmarks? boolean
--- @field noautocmd? boolean
--- @field o? table<string, any>
--- @field sandbox? boolean
--- @field silent? boolean
--- @field unsilent? boolean
--- @field win? integer
--- @field wo? table<string, any>
--- @nodoc
--- @class vim.context.state
--- @field bo? table<string, any>
--- @field env? table<string, any>
--- @field go? table<string, any>
--- @field wo? table<string, any>
local scope_map = { buf = 'bo', global = 'go', win = 'wo' }
local scope_order = { 'o', 'wo', 'bo', 'go', 'env' }
local state_restore_order = { 'bo', 'wo', 'go', 'env' }
--- Gets data about current state, enough to properly restore specified options/env/etc.
--- @param context vim.context.mods
--- @return vim.context.state
local get_context_state = function(context)
local res = { bo = {}, env = {}, go = {}, wo = {} }
-- Use specific order from possibly most to least intrusive
for _, scope in ipairs(scope_order) do
for name, _ in pairs(context[scope] or {}) do
local sc = scope == 'o' and scope_map[vim.api.nvim_get_option_info2(name, {}).scope] or scope
-- Do not override already set state and fall back to `vim.NIL` for
-- state `nil` values (which still needs restoring later)
res[sc][name] = res[sc][name] or vim[sc][name] or vim.NIL
-- Always track global option value to properly restore later.
-- This matters for at least `o` and `wo` (which might set either/both
-- local and global option values).
if sc ~= 'env' then
res.go[name] = res.go[name] or vim.go[name]
end
end
end
return res
end
--- Executes function `f` with the given context specification.
---
--- Notes:
--- - Context `{ buf = buf }` has no guarantees about current window when
--- inside context.
--- - Context `{ buf = buf, win = win }` is yet not allowed, but this seems
--- to be an implementation detail.
--- - There should be no way to revert currently set `context.sandbox = true`
--- (like with nested `vim._with()` calls). Otherwise it kind of breaks the
--- whole purpose of sandbox execution.
--- - Saving and restoring option contexts (`bo`, `go`, `o`, `wo`) trigger
--- `OptionSet` events. This is an implementation issue because not doing it
--- seems to mean using either 'eventignore' option or extra nesting with
--- `{ noautocmd = true }` (which itself is a wrapper for 'eventignore').
--- As `{ go = { eventignore = '...' } }` is a valid context which should be
--- properly set and restored, this is not a good approach.
--- Not triggering `OptionSet` seems to be a good idea, though. So probably
--- only moving context save and restore to lower level might resolve this.
---
--- @param context vim.context.mods
--- @param f function
--- @return any
function vim._with(context, f)
vim.validate('context', context, 'table')
vim.validate('f', f, 'function')
vim.validate('context.bo', context.bo, 'table', true)
vim.validate('context.buf', context.buf, 'number', true)
vim.validate('context.emsg_silent', context.emsg_silent, 'boolean', true)
vim.validate('context.env', context.env, 'table', true)
vim.validate('context.go', context.go, 'table', true)
vim.validate('context.hide', context.hide, 'boolean', true)
vim.validate('context.keepalt', context.keepalt, 'boolean', true)
vim.validate('context.keepjumps', context.keepjumps, 'boolean', true)
vim.validate('context.keepmarks', context.keepmarks, 'boolean', true)
vim.validate('context.keeppatterns', context.keeppatterns, 'boolean', true)
vim.validate('context.lockmarks', context.lockmarks, 'boolean', true)
vim.validate('context.noautocmd', context.noautocmd, 'boolean', true)
vim.validate('context.o', context.o, 'table', true)
vim.validate('context.sandbox', context.sandbox, 'boolean', true)
vim.validate('context.silent', context.silent, 'boolean', true)
vim.validate('context.unsilent', context.unsilent, 'boolean', true)
vim.validate('context.win', context.win, 'number', true)
vim.validate('context.wo', context.wo, 'table', true)
-- Check buffer exists
if context.buf then
if not vim.api.nvim_buf_is_valid(context.buf) then
error('Invalid buffer id: ' .. context.buf)
end
end
-- Check window exists
if context.win then
if not vim.api.nvim_win_is_valid(context.win) then
error('Invalid window id: ' .. context.win)
end
-- TODO: Maybe allow it?
if context.buf and vim.api.nvim_win_get_buf(context.win) ~= context.buf then
error('Can not set both `buf` and `win` context.')
end
end
-- Decorate so that save-set-restore options is done in correct window-buffer
local callback = function()
-- Cache current values to be changed by context
-- Abort early in case of bad context value
local ok, state = pcall(get_context_state, context)
if not ok then
error(state, 0)
end
-- Apply some parts of the context in specific order
-- NOTE: triggers `OptionSet` event
for _, scope in ipairs(scope_order) do
for name, context_value in pairs(context[scope] or {}) do
vim[scope][name] = context_value
end
end
-- Execute
local res = { pcall(f) }
-- Restore relevant cached values in specific order, global scope last
-- NOTE: triggers `OptionSet` event
for _, scope in ipairs(state_restore_order) do
for name, cached_value in pairs(state[scope]) do
vim[scope][name] = cached_value
end
end
-- Return
if not res[1] then
error(res[2], 0)
end
table.remove(res, 1)
return unpack(res, 1, table.maxn(res))
end
return vim._with_c(context, callback)
end
return vim