// Copyright (c) 2019-2020 Alexander Medvednikov. All rights reserved. // Use of this source code is governed by an MIT license // that can be found in the LICENSE file. // // Utility functions helping integrate with various shell auto-completion systems. // The install process and communication is inspired from that of [kitty](https://sw.kovidgoyal.net/kitty/#completion-for-kitty) // This method avoids writing and maintaining external files on the user's file system. // The user will be responsible for adding a small line to their .*rc - that will ensure *live* (i.e. not-static) // auto-completion features. // // # bash // To install auto-completion for V in bash, simply add this code to your ~/.bashrc: // `source /dev/stdin <<<"$(v complete setup bash)"` // On more recent versions of bash (>3.2) this should suffice: // `source <(v complete setup bash)` // // # fish // TODO // // # zsh // To install auto-completion for V in zsh - please add the following to your ~/.zshrc: // ``` // autoload -Uz compinit // compinit // # Completion for v // v complete setup zsh | source /dev/stdin // ``` // # It's important is to make sure the call to v to load the zsh completions happens after the call to compinit // // # powershell //TODO // module main import os const ( auto_complete_shells = ['bash', 'fish', 'zsh', 'powershell'] // list of supported shells vexe = os.getenv('VEXE') ) // Snooped from cmd/v/v.v, vlib/v/pref/pref.v const ( auto_complete_commands = [ /* simple_cmd */ 'fmt', 'up', 'vet', 'self', 'tracev', 'symlink', 'bin2v', 'test', 'test-fmt', 'test-compiler', 'test-fixed', 'test-cleancode', 'repl', 'complete', 'build-tools', 'build-examples', 'build-vbinaries', 'setup-freetype', 'doc', 'doctor', /* commands */ 'help', 'new', 'init', 'complete', 'translate', 'self', 'search', 'install', 'update', 'upgrade', 'outdated', 'list', 'remove', 'vlib-docs', 'get', 'version', 'run', 'build', 'build-module', ] auto_complete_flags = [ '-apk', '-show-timings', '-check-syntax', '-v', '-progress', '-silent', '-g', '-cg', '-repl', '-live', '-sharedlive', '-shared', '--enable-globals', '-enable-globals', '-autofree', '-compress', '-freestanding', '-no-preludes', '-prof', '-profile', '-profile-no-inline', '-prod', '-simulator', '-stats', '-obfuscate', '-translated', '-color', '-nocolor', '-showcc', '-show-c-output', '-experimental', '-usecache', '-prealloc', '-parallel', '-x64', '-W', '-reuse-tmpc', '-w', '-print_v_files', '-error-limit', '-os', '-printfn', '-cflags', '-define', '-d', '-cc', '-o', '-b', '-path', '-custom-prelude', '-name', '-bundle', '-V', '-version', '--version', ] auto_complete_flags_doc = [ '-all', '-f', '-h', '-help', '-m', '-o', '-readme', '-v', '-filename', '-pos', '-no-timestamp', '-inline-assets', '-open', '-p', '-s', '-l', ] auto_complete_flags_fmt = [ '-c', '-diff', '-l', '-w', '-debug', '-verify', ] auto_complete_flags_bin2v = [ '-h', '--help', '-m', '--module', '-p', '--prefix', '-w', '--write', ] auto_complete_flags_self = [ '-prod', ] auto_complete_compilers = [ 'cc', 'gcc', 'tcc', 'tinyc', 'clang', 'mingw', 'msvc', ] ) fn auto_complete(args []string) { if args.len <= 1 || args[0] != 'complete' { if args.len == 1 { eprintln('auto completion require arguments to work.') } else { eprintln('auto completion failed for "$args".') } exit(1) } sub := args[1] sub_args := args[1..] match sub { 'setup' { if sub_args.len <= 1 || sub_args[1] !in auto_complete_shells { eprintln('please specify a shell to setup auto completion for ($auto_complete_shells).') exit(1) } shell := sub_args[1] mut setup := '' match shell { 'bash' { setup = ' _v_completions() { local src local limit # Send all words up to the word the cursor is currently on let limit=1+\$COMP_CWORD src=\$($vexe complete bash \$(printf "%s\\n" \${COMP_WORDS[@]: 0:\$limit})) if [[ \$? == 0 ]]; then eval \${src} #echo \${src} fi } complete -o nospace -F _v_completions v ' } // 'fish' {} //TODO see https://github.com/kovidgoyal/kitty/blob/75a94bcd96f74be024eb0a28de87ca9e15c4c995/kitty/complete.py#L113 'zsh' { setup = ' #compdef v _v() { local src # Send all words up to the word the cursor is currently on src=\$($vexe complete zsh \$(printf "%s\\n" \${(@)words[1,\$CURRENT]})) if [[ \$? == 0 ]]; then eval \${src} #echo \${src} fi } compdef _v v ' } // 'powershell' {} //TODO else {} } println(setup) } 'bash' { if sub_args.len <= 1 { exit(0) } mut lines := []string{} list := auto_complete_request(sub_args[1..]) for entry in list { lines << "COMPREPLY+=(\'$entry\')" } println(lines.join('\n')) } // 'fish' {} //TODO 'zsh' { if sub_args.len <= 1 { exit(0) } mut lines := []string{} list := auto_complete_request(sub_args[1..]) for entry in list { lines << 'compadd -U -S \"\" -- \'$entry\';' } println(lines.join('\n')) } // 'powershell' {} //TODO else {} } exit(0) } fn auto_complete_request(args []string) []string { // Using space will ensure a uniform input in cases where the shell // returns the completion input as a string (['v','run'] vs. ['v run']). split_by := ' ' request := args.join(split_by) mut list := []string{} // new_part := request.ends_with('\n\n') mut parts := request.trim_right(' ').split(split_by) if parts.len <= 1 { // 'v ' -> top level commands. for command in auto_complete_commands { list << command } } else { part := parts.last().trim(' ') mut parent_command := '' for i := parts.len - 1; i >= 0; i-- { if parts[i].starts_with('-') { continue } parent_command = parts[i] break } get_flags := fn (base []string, flag string) []string { if flag.len == 1 { return base } else { return base.filter(it.starts_with(flag)) } } if part.starts_with('-') { // 'v -' -> flags. match parent_command { 'bin2v' { // 'v bin2v -' list = get_flags(auto_complete_flags_bin2v, part) } 'build' { // 'v build -' -> flags. list = get_flags(auto_complete_flags, part) } 'doc' { // 'v doc -' -> flags. list = get_flags(auto_complete_flags_doc, part) } 'fmt' { // 'v fmt -' -> flags. list = get_flags(auto_complete_flags_fmt, part) } 'self' { // 'v self -' -> flags. list = get_flags(auto_complete_flags_self, part) } else { for flag in auto_complete_flags { if flag == part { if flag == '-cc' { // 'v -cc ' -> list of available compilers. for compiler in auto_complete_compilers { path := os.find_abs_path_of_executable(compiler) or { '' } if path != '' { list << compiler } } } } else if flag.starts_with(part) { // 'v -' -> flags matching "". list << flag } } } } } else { match part { 'help' { // 'v help ' -> top level commands except "help". list = auto_complete_commands.filter(it != part && it != 'complete') } else { // 'v ' -> commands matching "". // Don't include if part matches a full command - instead go to path completion below. for command in auto_complete_commands { if part != command && command.starts_with(part) { list << command } } } } } // Nothing of value was found. // Mimic shell dir and file completion if list.len == 0 { mut ls_path := '.' mut collect_all := part in auto_complete_commands mut path_complete := false if part.ends_with(os.path_separator) || part == '.' || part == '..' { // 'v (.*/$|.|..)' -> output full directory list ls_path = '.' + os.path_separator + part collect_all = true } else if !collect_all && part.contains(os.path_separator) && os.is_dir(os.dir(part)) { // 'v (.*/.* && os.is_dir)' -> output completion friendly directory list ls_path = os.dir(part) path_complete = true } entries := os.ls(ls_path) or { return list } last := part.all_after_last(os.path_separator) if path_complete { path := part.all_before_last(os.path_separator) for entry in entries { if entry.starts_with(last) { list << os.join_path(path, entry) } } // If only one possible file - send full path to completion system. // Please note that this might be bash specific - needs more testing. if list.len == 1 { list = [list[0]] } } else { for entry in entries { if collect_all { list << entry } else { if entry.starts_with(last) { list << entry } } } } } } return list } fn main() { args := os.args[1..] // println('"$args"') auto_complete(args) }