-- LSP Plugins return { { -- `lazydev` configures Lua LSP for your Neovim config, runtime and plugins -- used for completion, annotations and signatures of Neovim apis 'folke/lazydev.nvim', ft = 'lua', opts = { library = { -- Load luvit types when the `vim.uv` word is found { path = 'luvit-meta/library', words = { 'vim%.uv' } }, }, }, }, { 'Bilal2453/luvit-meta', lazy = true }, { -- Main LSP Configuration 'neovim/nvim-lspconfig', dependencies = { -- Automatically install LSPs and related tools to stdpath for Neovim { 'williamboman/mason.nvim', config = true }, -- NOTE: Must be loaded before dependants 'williamboman/mason-lspconfig.nvim', 'WhoIsSethDaniel/mason-tool-installer.nvim', { 'mfussenegger/nvim-jdtls', ft = 'java' }, -- Useful status updates for LSP. -- NOTE: `opts = {}` is the same as calling `require('fidget').setup({})` { 'j-hui/fidget.nvim', opts = {} }, -- Allows extra capabilities provided by nvim-cmp 'hrsh7th/cmp-nvim-lsp', -- Needed to explore Workspace in Java 'stevearc/oil.nvim', }, config = function() -- Brief aside: **What is LSP?** -- -- LSP is an initialism you've probably heard, but might not understand what it is. -- -- LSP stands for Language Server Protocol. It's a protocol that helps editors -- and language tooling communicate in a standardized fashion. -- -- In general, you have a "server" which is some tool built to understand a particular -- language (such as `gopls`, `lua_ls`, `rust_analyzer`, etc.). These Language Servers -- (sometimes called LSP servers, but that's kind of like ATM Machine) are standalone -- processes that communicate with some "client" - in this case, Neovim! -- -- LSP provides Neovim with features like: -- - Go to definition -- - Find references -- - Autocompletion -- - Symbol Search -- - and more! -- -- Thus, Language Servers are external tools that must be installed separately from -- Neovim. This is where `mason` and related plugins come into play. -- -- If you're wondering about lsp vs treesitter, you can check out the wonderfully -- and elegantly composed help section, `:help lsp-vs-treesitter` -- This function gets run when an LSP attaches to a particular buffer. -- That is to say, every time a new file is opened that is associated with -- an lsp (for example, opening `main.rs` is associated with `rust_analyzer`) this -- function will be executed to configure the current buffer vim.api.nvim_create_autocmd('LspAttach', { group = vim.api.nvim_create_augroup('kickstart-lsp-attach', { clear = true }), callback = function(event) -- NOTE: Remember that Lua is a real programming language, and as such it is possible -- to define small helper and utility functions so you don't have to repeat yourself. -- -- In this case, we create a function that lets us more easily define mappings specific -- for LSP related items. It sets the mode, buffer and description for us each time. local map = function(keys, func, desc, mode) mode = mode or 'n' vim.keymap.set(mode, keys, func, { buffer = event.buf, desc = 'LSP: ' .. desc }) end -- Jump to the definition of the word under your cursor. -- This is where a variable was first declared, or where a function is defined, etc. -- To jump back, press . map('gd', require('telescope.builtin').lsp_definitions, '[G]oto [D]efinition') -- Find references for the word under your cursor. map('gr', require('telescope.builtin').lsp_references, '[G]oto [R]eferences') -- Jump to the implementation of the word under your cursor. -- Useful when your language has ways of declaring types without an actual implementation. map('gI', require('telescope.builtin').lsp_implementations, '[G]oto [I]mplementation') -- Jump to the type of the word under your cursor. -- Useful when you're not sure what type a variable is and you want to see -- the definition of its *type*, not where it was *defined*. map('D', require('telescope.builtin').lsp_type_definitions, 'Type [D]efinition') -- Fuzzy find all the symbols in your current document. -- Symbols are things like variables, functions, types, etc. map('ds', require('telescope.builtin').lsp_document_symbols, '[D]ocument [S]ymbols') -- Fuzzy find all the symbols in your current workspace. -- Similar to document symbols, except searches over your entire project. map('ws', require('telescope.builtin').lsp_dynamic_workspace_symbols, '[W]orkspace [S]ymbols') -- Workspace functionality dependant on LSPs map('wa', vim.lsp.buf.add_workspace_folder, '[W]orkspace [A]dd Folder') map('wr', vim.lsp.buf.remove_workspace_folder, '[W]orkspace [R]emove Folder') -- Rename the variable under your cursor. -- Most Language Servers support renaming across files, etc. map('rn', vim.lsp.buf.rename, '[R]e[n]ame') -- Execute a code action, usually your cursor needs to be on top of an error -- or a suggestion from your LSP for this to activate. map('ca', vim.lsp.buf.code_action, '[C]ode [A]ction', { 'n', 'x' }) -- Opens a popup that displays documentation about the word under your cursor -- See `:help K` for why this keymap. map('K', vim.lsp.buf.hover, 'Hover Documentation') -- Similar as above, shows hover documentation for current function vim.keymap.set('i', '', vim.lsp.buf.signature_help, { buffer = event.buf, desc = 'LSP: ' .. 'Hover Signature Information' }) -- WARN: This is not Goto Definition, this is Goto Declaration. -- For example, in C this would take you to the header. map('gD', vim.lsp.buf.declaration, '[G]oto [D]eclaration') -- The following two autocommands are used to highlight references of the -- word under your cursor when your cursor rests there for a little while. -- See `:help CursorHold` for information about when this is executed -- -- When you move your cursor, the highlights will be cleared (the second autocommand). local client = vim.lsp.get_client_by_id(event.data.client_id) if client and client.supports_method(vim.lsp.protocol.Methods.textDocument_documentHighlight) then local highlight_augroup = vim.api.nvim_create_augroup('kickstart-lsp-highlight', { clear = false }) vim.api.nvim_create_autocmd({ 'CursorHold', 'CursorHoldI' }, { buffer = event.buf, group = highlight_augroup, callback = vim.lsp.buf.document_highlight, }) vim.api.nvim_create_autocmd({ 'CursorMoved', 'CursorMovedI' }, { buffer = event.buf, group = highlight_augroup, callback = vim.lsp.buf.clear_references, }) vim.api.nvim_create_autocmd('LspDetach', { group = vim.api.nvim_create_augroup('kickstart-lsp-detach', { clear = true }), callback = function(event2) vim.lsp.buf.clear_references() vim.api.nvim_clear_autocmds { group = 'kickstart-lsp-highlight', buffer = event2.buf } end, }) end -- The following code creates a keymap to toggle inlay hints in your -- code, if the language server you are using supports them -- -- This may be unwanted, since they displace some of your code if client and client.supports_method(vim.lsp.protocol.Methods.textDocument_inlayHint) then map('th', function() vim.lsp.inlay_hint.enable(not vim.lsp.inlay_hint.is_enabled { bufnr = event.buf }) end, '[T]oggle Inlay [H]ints') end end, }) -- LSP servers and clients are able to communicate to each other what features they support. -- By default, Neovim doesn't support everything that is in the LSP specification. -- When you add nvim-cmp, luasnip, etc. Neovim now has *more* capabilities. -- So, we create new capabilities with nvim cmp, and then broadcast that to the servers. local capabilities = vim.lsp.protocol.make_client_capabilities() capabilities = vim.tbl_deep_extend('force', capabilities, require('cmp_nvim_lsp').default_capabilities()) -- Enable the following language servers -- Feel free to add/remove any LSPs that you want here. They will automatically be installed. -- -- Add any additional override configuration in the following tables. Available keys are: -- - cmd (table): Override the default command used to start the server -- - filetypes (table): Override the default list of associated filetypes for the server -- - capabilities (table): Override fields in capabilities. Can be used to disable certain LSP features. -- - settings (table): Override the default settings passed when initializing the server. -- For example, to see the options for `lua_ls`, you could go to: https://luals.github.io/wiki/settings/ local servers = { powershell_es = {}, rust_analyzer = {}, tailwindcss = {}, omnisharp = {}, pyright = {}, svelte = {}, ts_ls = {}, gopls = {}, intelephense = {}, -- ... etc. See `:help lspconfig-all` for a list of all the pre-configured LSPs -- -- Some languages (like typescript) have entire language plugins that can be useful: -- https://github.com/pmizio/typescript-tools.nvim lua_ls = { -- cmd = {...}, -- filetypes = { ...}, -- capabilities = {}, settings = { Lua = { completion = { callSnippet = 'Replace', }, -- You can toggle below to ignore Lua_LS's noisy `missing-fields` warnings -- diagnostics = { disable = { 'missing-fields' } }, }, }, }, } local function jdtls_setup() --- @param workspace_dir string local function generate_config(workspace_dir) -- get the mason install path local install_path = require('mason-registry').get_package('jdtls'):get_install_path() local jdtls_path = vim.fn.glob(install_path .. '/plugins/org.eclipse.equinox.launcher_*.jar') -- try to detect sysname for config local sysname = 'win' if vim.fn.has 'unix' then sysname = 'linux' elseif vim.fn.has 'mac' then sysname = 'mac' end -- set default config according to sysname local config_path = install_path .. '/config_' .. sysname -- See `:help vim.lsp.start_client` for an overview of the supported `config` options. local config = { -- The command that starts the language server -- See: https://github.com/eclipse/eclipse.jdt.ls#running-from-the-command-line cmd = { 'java', '-Declipse.application=org.eclipse.jdt.ls.core.id1', '-Dosgi.bundles.defaultStartLevel=4', '-Declipse.product=org.eclipse.jdt.ls.core.product', '-Dlog.protocol=true', '-Dlog.level=ALL', '-Xmx1g', '--add-modules=ALL-SYSTEM', '--add-opens', 'java.base/java.util=ALL-UNNAMED', '--add-opens', 'java.base/java.lang=ALL-UNNAMED', '-jar', jdtls_path, '-configuration', config_path, '-data', workspace_dir, }, capabilities = capabilities, root_dir = vim.fs.root(0, { '.git', 'mvnw', 'gradlew' }), -- Here you can configure eclipse.jdt.ls specific settings -- See https://github.com/eclipse/eclipse.jdt.ls/wiki/Running-the-JAVA-LS-server-from-the-command-line#initialize-request -- for a list of options settings = { java = {}, }, -- Language server `initializationOptions` -- See https://github.com/mfussenegger/nvim-jdtls#java-debug-installation init_options = { bundles = {}, }, } return config end vim.api.nvim_create_autocmd('FileType', { pattern = 'java', callback = function(opt) local project_name = vim.fn.fnamemodify(vim.fn.getcwd(), ':p:h:t') -- calculate workspace dir local workspace_dir = vim.fn.stdpath 'data' .. '/site/java/workspace-root/' .. project_name require('jdtls').start_or_attach(generate_config(workspace_dir)) vim.keymap.set('n', 'we', 'Oil ' .. workspace_dir .. '', { desc = '[W]orkspace [E]xplorer', buffer = opt.buf, }) end, }) end -- Ensure the servers and tools above are installed -- To check the current status of installed tools and/or manually install -- other tools, you can run -- :Mason -- -- You can press `g?` for help in this menu. require('mason').setup() -- You can add other tools here that you want Mason to install -- for you, so that they are available from within Neovim. local ensure_installed = vim.tbl_keys(servers or {}) vim.list_extend(ensure_installed, { 'stylua', -- Used to format lua code 'eslint_d', 'prettier', 'prettierd', 'markdownlint', 'isort', 'black', 'jdtls', }) require('mason-tool-installer').setup { ensure_installed = ensure_installed } require('mason-lspconfig').setup { handlers = { function(server_name) if server_name == 'jdtls' then jdtls_setup() return end local server = servers[server_name] or {} -- This handles overriding only values explicitly passed -- by the server configuration above. Useful when disabling -- certain features of an LSP (for example, turning off formatting for ts_ls) server.capabilities = vim.tbl_deep_extend('force', {}, capabilities, server.capabilities or {}) require('lspconfig')[server_name].setup(server) end, }, } end, }, } -- vim: ts=2 sts=2 sw=2 et