local M = {} local iswin = vim.uv.os_uname().sysname == 'Windows_NT' local os_sep = iswin and '\\' or '/' --- Iterate over all the parents of the given path. --- --- Example: --- --- ```lua --- local root_dir --- for dir in vim.fs.parents(vim.api.nvim_buf_get_name(0)) do --- if vim.fn.isdirectory(dir .. "/.git") == 1 then --- root_dir = dir --- break --- end --- end --- --- if root_dir then --- print("Found git repository at", root_dir) --- end --- ``` --- ---@param start (string) Initial path. ---@return fun(_, dir: string): string? # Iterator ---@return nil ---@return string|nil function M.parents(start) return function(_, dir) local parent = M.dirname(dir) if parent == dir then return nil end return parent end, nil, start end --- Return the parent directory of the given path --- ---@generic T : string|nil ---@param file T Path ---@return T Parent directory of {file} function M.dirname(file) if file == nil then return nil end vim.validate({ file = { file, 's' } }) if iswin then file = file:gsub(os_sep, '/') --[[@as string]] if file:match('^%w:/?$') then return file end end if not file:match('/') then return '.' elseif file == '/' or file:match('^/[^/]+$') then return '/' end ---@type string local dir = file:match('/$') and file:sub(1, #file - 1) or file:match('^(/?.+)/') if iswin and dir:match('^%w:$') then return dir .. '/' end return dir end --- Return the basename of the given path --- ---@generic T : string|nil ---@param file T Path ---@return T Basename of {file} function M.basename(file) if file == nil then return nil end vim.validate({ file = { file, 's' } }) if iswin then file = file:gsub(os_sep, '/') --[[@as string]] if file:match('^%w:/?$') then return '' end end return file:match('/$') and '' or (file:match('[^/]*$')) end --- Concatenate directories and/or file paths into a single path with normalization --- (e.g., `"foo/"` and `"bar"` get joined to `"foo/bar"`) --- ---@param ... string ---@return string function M.joinpath(...) return (table.concat({ ... }, '/'):gsub('//+', '/')) end ---@alias Iterator fun(): string?, string? --- Return an iterator over the items located in {path} --- ---@param path (string) An absolute or relative path to the directory to iterate --- over. The path is first normalized |vim.fs.normalize()|. --- @param opts table|nil Optional keyword arguments: --- - depth: integer|nil How deep the traverse (default 1) --- - skip: (fun(dir_name: string): boolean)|nil Predicate --- to control traversal. Return false to stop searching the current directory. --- Only useful when depth > 1 --- ---@return Iterator over items in {path}. Each iteration yields two values: "name" and "type". --- "name" is the basename of the item relative to {path}. --- "type" is one of the following: --- "file", "directory", "link", "fifo", "socket", "char", "block", "unknown". function M.dir(path, opts) opts = opts or {} vim.validate({ path = { path, { 'string' } }, depth = { opts.depth, { 'number' }, true }, skip = { opts.skip, { 'function' }, true }, }) path = M.normalize(path) if not opts.depth or opts.depth == 1 then local fs = vim.uv.fs_scandir(path) return function() if not fs then return end return vim.uv.fs_scandir_next(fs) end end --- @async return coroutine.wrap(function() local dirs = { { path, 1 } } while #dirs > 0 do --- @type string, integer local dir0, level = unpack(table.remove(dirs, 1)) local dir = level == 1 and dir0 or M.joinpath(path, dir0) local fs = vim.uv.fs_scandir(dir) while fs do local name, t = vim.uv.fs_scandir_next(fs) if not name then break end local f = level == 1 and name or M.joinpath(dir0, name) coroutine.yield(f, t) if opts.depth and level < opts.depth and t == 'directory' and (not opts.skip or opts.skip(f) ~= false) then dirs[#dirs + 1] = { f, level + 1 } end end end end) end --- @class vim.fs.find.Opts --- @inlinedoc --- --- Path to begin searching from. If --- omitted, the |current-directory| is used. --- @field path? string --- --- Search upward through parent directories. --- Otherwise, search through child directories (recursively). --- (default: `false`) --- @field upward? boolean --- --- Stop searching when this directory is reached. --- The directory itself is not searched. --- @field stop? string --- --- Find only items of the given type. --- If omitted, all items that match {names} are included. --- @field type? string --- --- Stop the search after finding this many matches. --- Use `math.huge` to place no limit on the number of matches. --- (default: `1`) --- @field limit? number --- Find files or directories (or other items as specified by `opts.type`) in the given path. --- --- Finds items given in {names} starting from {path}. If {upward} is "true" --- then the search traverses upward through parent directories; otherwise, --- the search traverses downward. Note that downward searches are recursive --- and may search through many directories! If {stop} is non-nil, then the --- search stops when the directory given in {stop} is reached. The search --- terminates when {limit} (default 1) matches are found. You can set {type} --- to "file", "directory", "link", "socket", "char", "block", or "fifo" --- to narrow the search to find only that type. --- --- Examples: --- --- ```lua --- -- list all test directories under the runtime directory --- local test_dirs = vim.fs.find( --- {'test', 'tst', 'testdir'}, --- {limit = math.huge, type = 'directory', path = './runtime/'} --- ) --- --- -- get all files ending with .cpp or .hpp inside lib/ --- local cpp_hpp = vim.fs.find(function(name, path) --- return name:match('.*%.[ch]pp$') and path:match('[/\\\\]lib$') --- end, {limit = math.huge, type = 'file'}) --- ``` --- ---@param names (string|string[]|fun(name: string, path: string): boolean) Names of the items to find. --- Must be base names, paths and globs are not supported when {names} is a string or a table. --- If {names} is a function, it is called for each traversed item with args: --- - name: base name of the current item --- - path: full path of the current item --- The function should return `true` if the given item is considered a match. --- ---@param opts vim.fs.find.Opts Optional keyword arguments: ---@return (string[]) # Normalized paths |vim.fs.normalize()| of all matching items function M.find(names, opts) opts = opts or {} vim.validate({ names = { names, { 's', 't', 'f' } }, path = { opts.path, 's', true }, upward = { opts.upward, 'b', true }, stop = { opts.stop, 's', true }, type = { opts.type, 's', true }, limit = { opts.limit, 'n', true }, }) if type(names) == 'string' then names = { names } end local path = opts.path or assert(vim.uv.cwd()) local stop = opts.stop local limit = opts.limit or 1 local matches = {} --- @type string[] local function add(match) matches[#matches + 1] = M.normalize(match) if #matches == limit then return true end end if opts.upward then local test --- @type fun(p: string): string[] if type(names) == 'function' then test = function(p) local t = {} for name, type in M.dir(p) do if (not opts.type or opts.type == type) and names(name, p) then table.insert(t, M.joinpath(p, name)) end end return t end else test = function(p) local t = {} --- @type string[] for _, name in ipairs(names) do local f = M.joinpath(p, name) local stat = vim.uv.fs_stat(f) if stat and (not opts.type or opts.type == stat.type) then t[#t + 1] = f end end return t end end for _, match in ipairs(test(path)) do if add(match) then return matches end end for parent in M.parents(path) do if stop and parent == stop then break end for _, match in ipairs(test(parent)) do if add(match) then return matches end end end else local dirs = { path } while #dirs > 0 do local dir = table.remove(dirs, 1) if stop and dir == stop then break end for other, type_ in M.dir(dir) do local f = M.joinpath(dir, other) if type(names) == 'function' then if (not opts.type or opts.type == type_) and names(other, dir) then if add(f) then return matches end end else for _, name in ipairs(names) do if name == other and (not opts.type or opts.type == type_) then if add(f) then return matches end end end end if type_ == 'directory' then dirs[#dirs + 1] = f end end end end return matches end --- Find the first parent directory containing a specific "marker", relative to a file path or --- buffer. --- --- If the buffer is unnamed (has no backing file) or has a non-empty 'buftype' then the search --- begins from Nvim's |current-directory|. --- --- Example: --- --- ```lua --- -- Find the root of a Python project, starting from file 'main.py' --- vim.fs.root(vim.fs.joinpath(vim.env.PWD, 'main.py'), {'pyproject.toml', 'setup.py' }) --- --- -- Find the root of a git repository --- vim.fs.root(0, '.git') --- --- -- Find the parent directory containing any file with a .csproj extension --- vim.fs.root(0, function(name, path) --- return name:match('%.csproj$') ~= nil --- end) --- ``` --- --- @param source integer|string Buffer number (0 for current buffer) or file path (absolute or --- relative to the |current-directory|) to begin the search from. --- @param marker (string|string[]|fun(name: string, path: string): boolean) A marker, or list --- of markers, to search for. If a function, the function is called for each --- evaluated item and should return true if {name} and {path} are a match. --- @return string? # Directory path containing one of the given markers, or nil if no directory was --- found. function M.root(source, marker) assert(source, 'missing required argument: source') assert(marker, 'missing required argument: marker') local path ---@type string if type(source) == 'string' then path = source elseif type(source) == 'number' then if vim.bo[source].buftype ~= '' then path = assert(vim.uv.cwd()) else path = vim.api.nvim_buf_get_name(source) end else error('invalid type for argument "source": expected string or buffer number') end local paths = M.find(marker, { upward = true, path = vim.fn.fnamemodify(path, ':p:h'), }) if #paths == 0 then return nil end return vim.fs.dirname(paths[1]) end --- Split a Windows path into a prefix and a body, such that the body can be processed like a POSIX --- path. The path must use forward slashes as path separator. --- --- Does not check if the path is a valid Windows path. Invalid paths will give invalid results. --- --- Examples: --- - `//./C:/foo/bar` -> `//./C:`, `/foo/bar` --- - `//?/UNC/server/share/foo/bar` -> `//?/UNC/server/share`, `/foo/bar` --- - `//./system07/C$/foo/bar` -> `//./system07`, `/C$/foo/bar` --- - `C:/foo/bar` -> `C:`, `/foo/bar` --- - `C:foo/bar` -> `C:`, `foo/bar` --- --- @param path string Path to split. --- @return string, string, boolean : prefix, body, whether path is invalid. local function split_windows_path(path) local prefix = '' --- Match pattern. If there is a match, move the matched pattern from the path to the prefix. --- Returns the matched pattern. --- --- @param pattern string Pattern to match. --- @return string|nil Matched pattern local function match_to_prefix(pattern) local match = path:match(pattern) if match then prefix = prefix .. match --[[ @as string ]] path = path:sub(#match + 1) end return match end local function process_unc_path() return match_to_prefix('[^/]+/+[^/]+/+') end if match_to_prefix('^//[?.]/') then -- Device paths local device = match_to_prefix('[^/]+/+') -- Return early if device pattern doesn't match, or if device is UNC and it's not a valid path if not device or (device:match('^UNC/+$') and not process_unc_path()) then return prefix, path, false end elseif match_to_prefix('^//') then -- Process UNC path, return early if it's invalid if not process_unc_path() then return prefix, path, false end elseif path:match('^%w:') then -- Drive paths prefix, path = path:sub(1, 2), path:sub(3) end -- If there are slashes at the end of the prefix, move them to the start of the body. This is to -- ensure that the body is treated as an absolute path. For paths like C:foo/bar, there are no -- slashes at the end of the prefix, so it will be treated as a relative path, as it should be. local trailing_slash = prefix:match('/+$') if trailing_slash then prefix = prefix:sub(1, -1 - #trailing_slash) path = trailing_slash .. path --[[ @as string ]] end return prefix, path, true end --- Resolve `.` and `..` components in a POSIX-style path. This also removes extraneous slashes. --- `..` is not resolved if the path is relative and resolving it requires the path to be absolute. --- If a relative path resolves to the current directory, an empty string is returned. --- --- @see M.normalize() --- @param path string Path to resolve. --- @return string Resolved path. local function path_resolve_dot(path) local is_path_absolute = vim.startswith(path, '/') local new_path_components = {} for component in vim.gsplit(path, '/') do if component == '.' or component == '' then -- luacheck: ignore 542 -- Skip `.` components and empty components elseif component == '..' then if #new_path_components > 0 and new_path_components[#new_path_components] ~= '..' then -- For `..`, remove the last component if we're still inside the current directory, except -- when the last component is `..` itself table.remove(new_path_components) elseif is_path_absolute then -- luacheck: ignore 542 -- Reached the root directory in absolute path, do nothing else -- Reached current directory in relative path, add `..` to the path table.insert(new_path_components, component) end else table.insert(new_path_components, component) end end return (is_path_absolute and '/' or '') .. table.concat(new_path_components, '/') end --- @class vim.fs.normalize.Opts --- @inlinedoc --- --- Expand environment variables. --- (default: `true`) --- @field expand_env? boolean --- --- @field package _fast? boolean --- --- Path is a Windows path. --- (default: `true` in Windows, `false` otherwise) --- @field win? boolean --- Normalize a path to a standard format. A tilde (~) character at the beginning of the path is --- expanded to the user's home directory and environment variables are also expanded. "." and ".." --- components are also resolved, except when the path is relative and trying to resolve it would --- result in an absolute path. --- - "." as the only part in a relative path: --- - "." => "." --- - "././" => "." --- - ".." when it leads outside the current directory --- - "foo/../../bar" => "../bar" --- - "../../foo" => "../../foo" --- - ".." in the root directory returns the root directory. --- - "/../../" => "/" --- --- On Windows, backslash (\) characters are converted to forward slashes (/). --- --- Examples: --- ```lua --- [[C:\Users\jdoe]] => "C:/Users/jdoe" --- "~/src/neovim" => "/home/jdoe/src/neovim" --- "$XDG_CONFIG_HOME/nvim/init.vim" => "/Users/jdoe/.config/nvim/init.vim" --- "~/src/nvim/api/../tui/./tui.c" => "/home/jdoe/src/nvim/tui/tui.c" --- "./foo/bar" => "foo/bar" --- "foo/../../../bar" => "../../bar" --- "/home/jdoe/../../../bar" => "/bar" --- "C:foo/../../baz" => "C:../baz" --- "C:/foo/../../baz" => "C:/baz" --- [[\\?\UNC\server\share\foo\..\..\..\bar]] => "//?/UNC/server/share/bar" --- ``` --- ---@param path (string) Path to normalize ---@param opts? vim.fs.normalize.Opts ---@return (string) : Normalized path function M.normalize(path, opts) opts = opts or {} if not opts._fast then vim.validate({ path = { path, { 'string' } }, expand_env = { opts.expand_env, { 'boolean' }, true }, win = { opts.win, { 'boolean' }, true }, }) end local win = opts.win == nil and iswin or not not opts.win local os_sep_local = win and '\\' or '/' -- Empty path is already normalized if path == '' then return '' end -- Expand ~ to users home directory if vim.startswith(path, '~') then local home = vim.uv.os_homedir() or '~' if home:sub(-1) == os_sep_local then home = home:sub(1, -2) end path = home .. path:sub(2) end -- Expand environment variables if `opts.expand_env` isn't `false` if opts.expand_env == nil or opts.expand_env then path = path:gsub('%$([%w_]+)', vim.uv.os_getenv) end if win then -- Convert path separator to `/` path = path:gsub(os_sep_local, '/') end -- Check for double slashes at the start of the path because they have special meaning local double_slash = false if not opts._fast then double_slash = vim.startswith(path, '//') and not vim.startswith(path, '///') end local prefix = '' if win then local is_valid --- @type boolean -- Split Windows paths into prefix and body to make processing easier prefix, path, is_valid = split_windows_path(path) -- If path is not valid, return it as-is if not is_valid then return prefix .. path end -- Remove extraneous slashes from the prefix prefix = prefix:gsub('/+', '/') end if not opts._fast then -- Resolve `.` and `..` components and remove extraneous slashes from path, then recombine prefix -- and path. path = path_resolve_dot(path) end -- Preserve leading double slashes as they indicate UNC paths and DOS device paths in -- Windows and have implementation-defined behavior in POSIX. path = (double_slash and '/' or '') .. prefix .. path -- Change empty path to `.` if path == '' then path = '.' end return path end return M