-- luacheck: globals packer_plugins local M = {} function M.get_color(synID, what, mode) return vim.fn.synIDattr(vim.fn.synIDtrans(vim.fn.hlID(synID)), what, mode) end -- Terminal escape a given string function M.t(str) return vim.api.nvim_replace_termcodes(str, true, true, true) end -- Get env value or use default, if not present function M.env_default(name, def) local val = vim.env[name] return val == nil and def or val end -- Checks to see if a package can be required function M.can_require(name) if package.loaded[name] then return false else for _, searcher in ipairs(package.searchers or package.loaders) do local loader = searcher(name) if type(loader) == "function" then package.preload[name] = loader return true end end return false end end -- Require a package if possible function M.maybe_require(name) if M.can_require(name) then return require(name) end return nil end -- Require a package and a "_local" suffixed one function M.require_with_local(name) -- Local should completely override the versioned module -- In that case, the local file would probably start with a `require` for the -- non-local version. This would allow more control but at the cost of a bit -- of boiler plate local rmod = require(name) local lmod = M.maybe_require(name .. "_local") if lmod ~= nil then return lmod end return rmod end -- Returns whether or not packer plugin is loaded function M.is_plugin_loaded(name) return _G["packer_plugins"] and _G["packer_plugins"][name] and _G["packer_plugins"][name].loaded end -- Try to require something and perform some action if it was found function M.try_require(name, on_found, on_notfound) local status, module = pcall(require, name) if status then if on_found ~= nil then on_found(module) end return module else if on_notfound ~= nil then on_notfound(name) end return nil end end -- Compare sequenced integers used to compare versions. Eg {0, 6, 0} function M.cmp_versions(a, b) for i, part_a in pairs(a) do local part_b = b[i] if part_b == nil or part_a > part_b then return 1 elseif part_a < part_b then return -1 end end return 0 end -- Materializes an iterator into a list function M.materialize_list(list, iterator) if iterator == nil then iterator = list list = {} end for item in iterator do table.insert(list, item) end return list end -- Special not actually nil, but to be treated as nil value in some cases M.nil_val = {} -- Maps a set of version rules to a value eg. [">=0.5.0"] = "has 0.5.0" -- If more than one rule matches, the one with the greatest version number is used function M.map_version_rule(rules) local v = vim.version() local current_version = { v and v.major, v and v.minor, v and v.patch } -- Parse a constraint and version of a string local parse_rule = function(rule_string) local cmp, major, minor, patch = string.gmatch(rule_string, "([=<>]+)(%d+).(%d+).(%d+)")() return cmp, tonumber(major), tonumber(minor), tonumber(patch) end -- Checks if a constraint matches the current nvim instance local matches = function(cmp, major, minor, patch) local c = M.cmp_versions(current_version, { major, minor, patch }) if c == 1 then if vim.tbl_contains({ ">", ">=" }, cmp) then return true end elseif c == 0 then if vim.tbl_contains({ "==", ">=", "<=" }, cmp) then return true end elseif c == -1 then if vim.tbl_contains({ "<", "<=" }, cmp) then return true end end return false end local latest_version, latest_value = nil, nil for rule, value in pairs(rules) do local cmp, major, minor, patch = parse_rule(rule) if matches(cmp, major, minor, patch) then -- If the rule matches and the version that it matches is greater than the previous matches, save it if latest_version == nil or M.cmp_versions({ major, minor, patch }, latest_version) == 1 then latest_version = { major, minor, patch } latest_value = value end end end -- Return highest versioned matched value if latest_value == M.nil_val then return nil end return latest_value end -- Basically the oposite of map function M.swapped_map(v, func) func(v) return func end -- Pop from table function M.tbl_pop(t, key) local v = t[key] t[key] = nil return v end -- Calls keymap_set with preferred defaults function M.keymap_set(mode, lhs, rhs, opts) opts = vim.tbl_extend("keep", opts, { noremap = true, silent = true }) vim.keymap.set(mode, lhs, rhs, opts) end -- Returns a curried function for passing data into vim.keymap.set function M.curry_keymap(mode, prefix, default_opts) default_opts = vim.tbl_extend("keep", default_opts or {}, { noremap = true, silent = true }) return function(lhs, rhs, opts) opts = vim.tbl_extend("keep", opts or {}, default_opts) local opt_mode = M.tbl_pop(opts, "mode") vim.keymap.set(opt_mode or mode, prefix .. lhs, rhs, opts) end end -- Returns a function used to create keymaps with consistent prefixes function M.keymap_group(mode, prefix, default_opts) return function(lhs, rhs, opts) opts = opts or default_opts if opts ~= nil and default_opts ~= nil and opts ~= default_opts then opts = vim.tbl_extend("keep", opts, default_opts) end local opt_mode = M.tbl_pop(opts, "mode") M.keymap_set(opt_mode or mode, prefix .. lhs, rhs, opts) end end -- Diagnostics signs M.diagnostic_signs = { Error = "🔥", Warn = "⚠️", Hint = "🤔", Info = "➞", Pencil = "✏️", } -- Don't use emoji for Kitty if vim.env["TERM"] == "xterm-kitty" then M.diagnostic_signs = { Error = "🔥", Warn = "⚠", Hint = "🤔", Info = "i", Pencil = "✎", } end return M