mirror of https://github.com/Hilbis/Hilbish
172 lines
4.9 KiB
Go
172 lines
4.9 KiB
Go
package main
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import (
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"fmt"
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"strings"
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"github.com/jessevdk/go-flags"
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"github.com/maxlandon/readline"
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"github.com/maxlandon/readline/completers"
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)
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// This file shows a typical way of using readline in a loop.
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func main() {
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// Instantiate a console object
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console := newConsole()
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// Bind commands to the console
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bindCommands()
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// Setup the console completers, prompts, and input modes
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console.setup()
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// Start the readline loop (blocking)
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console.Start()
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}
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// newConsole - Instantiates a new console with some default behavior.
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// We modify/add elements of behavior later in setup.
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func newConsole() *console {
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console := &console{
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shell: readline.NewInstance(),
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parser: commandParser,
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}
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return console
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}
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// console - A simple console example.
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type console struct {
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shell *readline.Instance
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parser *flags.Parser
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}
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// setup - The console sets up various elements such as the completion system, hints,
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// syntax highlighting, prompt system, commands binding, and client environment loading.
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func (c *console) setup() (err error) {
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// Input mode & defails
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c.shell.InputMode = readline.Vim // Could be readline.Emacs for emacs input mode.
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c.shell.ShowVimMode = true
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c.shell.VimModeColorize = true
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// Prompt: we want a two-line prompt, with a custom indicator after the Vim status
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c.shell.SetPrompt("readline ")
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c.shell.Multiline = true
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c.shell.MultilinePrompt = " > "
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// Instantiate a default completer associated with the parser
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// declared in commands.go, and embedded into the console struct.
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// The error is muted, because we don't pass an nil parser, therefore no problems.
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defaultCompleter, _ := completers.NewCommandCompleter(c.parser)
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// Register the completer for command/option completions, hints and syntax highlighting.
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// The completer can handle all of them.
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c.shell.TabCompleter = defaultCompleter.TabCompleter
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c.shell.HintText = defaultCompleter.HintCompleter
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c.shell.SyntaxHighlighter = defaultCompleter.SyntaxHighlighter
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// History: by default the history is in-memory, use it with Ctrl-R
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return
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}
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// Start - The console has a working RPC connection: we setup all
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// things pertaining to the console itself, and start the input loop.
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func (c *console) Start() (err error) {
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// Setup console elements
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err = c.setup()
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if err != nil {
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return fmt.Errorf("Console setup failed: %s", err)
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}
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// Start input loop
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for {
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// Read input line
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line, _ := c.Readline()
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// Split and sanitize input
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sanitized, empty := sanitizeInput(line)
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if empty {
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continue
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}
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// Process various tokens on input (environment variables, paths, etc.)
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// These tokens will be expaneded by completers anyway, so this is not absolutely required.
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envParsed, _ := completers.ParseEnvironmentVariables(sanitized)
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// Other types of tokens, needed by commands who expect a certain type
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// of arguments, such as paths with spaces.
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tokenParsed := c.parseTokens(envParsed)
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// Execute the command and print any errors
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if _, parserErr := c.parser.ParseArgs(tokenParsed); parserErr != nil {
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fmt.Println(readline.RED + "[Error] " + readline.RESET + parserErr.Error() + "\n")
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}
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}
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}
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// Readline - Add an empty line between input line and command output.
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func (c *console) Readline() (line string, err error) {
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line, err = c.shell.Readline()
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fmt.Println()
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return
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}
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// sanitizeInput - Trims spaces and other unwished elements from the input line.
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func sanitizeInput(line string) (sanitized []string, empty bool) {
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// Assume the input is not empty
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empty = false
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// Trim border spaces
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trimmed := strings.TrimSpace(line)
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if len(line) < 1 {
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empty = true
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return
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}
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unfiltered := strings.Split(trimmed, " ")
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// Catch any eventual empty items
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for _, arg := range unfiltered {
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if arg != "" {
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sanitized = append(sanitized, arg)
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}
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}
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return
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}
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// parseTokens - Parse and process any special tokens that are not treated by environment-like parsers.
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func (c *console) parseTokens(sanitized []string) (parsed []string) {
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// PATH SPACE TOKENS
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// Catch \ tokens, which have been introduced in paths where some directories have spaces in name.
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// For each of these splits, we concatenate them with the next string.
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// This will also inspect commands/options/arguments, but there is no reason why a backlash should be present in them.
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var pathAdjusted []string
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var roll bool
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var arg string
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for i := range sanitized {
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if strings.HasSuffix(sanitized[i], "\\") {
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// If we find a suffix, replace with a space. Go on with next input
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arg += strings.TrimSuffix(sanitized[i], "\\") + " "
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roll = true
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} else if roll {
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// No suffix but part of previous input. Add it and go on.
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arg += sanitized[i]
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pathAdjusted = append(pathAdjusted, arg)
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arg = ""
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roll = false
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} else {
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// Default, we add our path and go on.
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pathAdjusted = append(pathAdjusted, sanitized[i])
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}
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}
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parsed = pathAdjusted
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// Add new function here, act on parsed []string from now on, not sanitized
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return
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}
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