;;; GNU Guix --- Functional package management for GNU ;;; Copyright © 2016 Ludovic Courtès ;;; Copyright © 2016 Efraim Flashner ;;; ;;; This file is part of GNU Guix. ;;; ;;; GNU Guix is free software; you can redistribute it and/or modify it ;;; under the terms of the GNU General Public License as published by ;;; the Free Software Foundation; either version 3 of the License, or (at ;;; your option) any later version. ;;; ;;; GNU Guix is distributed in the hope that it will be useful, but ;;; WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;;; GNU General Public License for more details. ;;; ;;; You should have received a copy of the GNU General Public License ;;; along with GNU Guix. If not, see . (define-module (guix build bournish) #:use-module (system base language) #:use-module (system base compile) #:use-module (system repl command) #:use-module (system repl common) #:use-module (ice-9 rdelim) #:use-module (ice-9 match) #:use-module (ice-9 ftw) #:use-module (srfi srfi-1) #:use-module (srfi srfi-11) #:use-module (srfi srfi-26) #:export (%bournish-language)) ;;; Commentary: ;;; ;;; This is a super minimal Bourne-like shell language for Guile. It is meant ;;; to be used at the REPL as a rescue shell. In a way, this is to Guile what ;;; eshell is to Emacs. ;;; ;;; Code: (define (expand-variable str) "Return STR or code to obtain the value of the environment variable STR refers to." ;; XXX: No support for "${VAR}". (if (string-prefix? "$" str) `(or (getenv ,(string-drop str 1)) "") str)) (define* (display-tabulated lst #:key (columns 3) (column-width (/ 78 columns))) "Display the list of string LST in COLUMNS columns of COLUMN-WIDTH characters." (define len (length lst)) (define pad (if (zero? (modulo len columns)) 0 columns)) (define items-per-column (quotient (+ len pad) columns)) (define items (list->vector lst)) (let loop ((indexes (unfold (cut >= <> columns) (cut * <> items-per-column) 1+ 0))) (unless (>= (first indexes) items-per-column) (for-each (lambda (index) (let ((item (if (< index len) (vector-ref items index) ""))) (display (string-pad-right item column-width)))) indexes) (newline) (loop (map 1+ indexes))))) (define ls-command-implementation ;; Run-time support procedure. (case-lambda (() (display-tabulated (scandir "."))) (files (let ((files (filter (lambda (file) (catch 'system-error (lambda () (lstat file)) (lambda args (let ((errno (system-error-errno args))) (format (current-error-port) "~a: ~a~%" file (strerror errno)) #f)))) files))) (display-tabulated files))))) (define (ls-command . files) `((@@ (guix build bournish) ls-command-implementation) ,@files)) (define (which-command program) `(search-path ((@@ (guix build bournish) executable-path)) ,program)) (define (cat-command file) `(call-with-input-file ,file (lambda (port) ((@ (guix build utils) dump-port) port (current-output-port)) *unspecified*))) (define (lines+chars port) ;; Return the number of lines and number of chars read from PORT. ;; TODO: Also return the number of words. (let loop ((lines 0) (chars 0)) (match (read-char port) ; get the next char ready ((? eof-object?) ;done! (values lines chars)) (#\newline ;recurse (loop (1+ lines) (1+ chars))) (_ ;recurse (loop lines (1+ chars)))))) (define wc-command-implementation (lambda files (let ((files (filter (lambda (file) (catch 'system-error (lambda () (stat file)) (lambda args (let ((errno (system-error-errno args))) (format (current-error-port) "~a: ~a~%" file (strerror errno)) #f)))) files))) (for-each (lambda (file) (let-values (((lines chars) (call-with-input-file file lines+chars))) (format #t "~a ~a ~a~%" lines chars file))) files)))) (define wc-l-command-implementation (lambda files (let ((files (filter (lambda (file) (catch 'system-error (lambda () (stat file)) (lambda args (let ((errno (system-error-errno args))) (format (current-error-port) "~a: ~a~%" file (strerror errno)) #f)))) files))) (for-each (lambda (file) (let-values (((lines chars) (call-with-input-file file lines+chars))) (format #t "~a ~a~%" lines file))) files)))) (define wc-c-command-implementation (lambda files (let ((files (filter (lambda (file) (catch 'system-error (lambda () (stat file)) (lambda args (let ((errno (system-error-errno args))) (format (current-error-port) "~a: ~a~%" file (strerror errno)) #f)))) files))) (for-each (lambda (file) (let-values (((lines chars) (call-with-input-file file lines+chars))) (format #t "~a ~a~%" chars file))) files)))) (define (wc-commands . args) (cond ((member "-l" args) `((@@ (guix build bournish) wc-l-command-implementation) ,@(delete "-l" args))) ((member "-c" args) `((@@ (guix build bournish) wc-c-command-implementation) ,@(delete "-c" args))) (else `((@@ (guix build bournish) wc-command-implementation) ,@args)))) (define (help-command . _) (display "\ Hello, this is Bournish, a minimal Bourne-like shell in Guile! The shell is good enough to navigate the file system and run commands but not much beyond that. It is meant to be used as a rescue shell in the initial RAM disk and is probably not very useful apart from that. It has a few built-in commands such as 'ls' and 'cd'; it lacks globbing, pipes---everything.\n")) (define %not-colon (char-set-complement (char-set #\:))) (define (executable-path) "Return the search path for programs as a list." (match (getenv "PATH") (#f '()) (str (string-tokenize str %not-colon)))) (define %commands ;; Built-in commands. `(("echo" ,(lambda strings `(list ,@strings))) ("cd" ,(lambda (dir) `(chdir ,dir))) ("pwd" ,(lambda () `(getcwd))) ("rm" ,(lambda (file) `(delete-file ,file))) ("cp" ,(lambda (source dest) `(copy-file ,source ,dest))) ("help" ,help-command) ("ls" ,ls-command) ("which" ,which-command) ("cat" ,cat-command) ("wc" ,wc-commands))) (define (read-bournish port env) "Read a Bournish expression from PORT, and return the corresponding Scheme code as an sexp." (match (read-line port) ((? eof-object? eof) eof) ((= string-tokenize (command args ...)) (match (assoc command %commands) ((command proc) ;built-in command (apply proc (map expand-variable args))) (#f (let ((command (if (string-prefix? "\\" command) (string-drop command 1) command))) `(system* ,command ,@(map expand-variable args)))))))) (define %bournish-language (let ((scheme (lookup-language 'scheme))) ;; XXX: The 'scheme' language lacks a "joiner", so we add one here. This ;; allows us to have 'read-bournish' read one shell statement at a time ;; instead of having to read until EOF. (set! (language-joiner scheme) (lambda (exps env) (match exps (() '(begin)) ((exp) exp) (_ `(begin ,@exps))))) (make-language #:name 'bournish #:title "Bournish" ;; The reader does all the heavy lifting. #:reader read-bournish #:compilers `((scheme . ,(lambda (exp env options) (values exp env env)))) #:decompilers '() #:evaluator (language-evaluator scheme) #:printer (language-printer scheme) #:make-default-environment (language-make-default-environment scheme)))) ;; XXX: ",L bournish" won't work unless we call our module (language bournish ;; spec), which is kinda annoying, so provide another meta-command. (define-meta-command ((bournish guix) repl) "bournish Switch to the Bournish language." (let ((current (repl-language repl))) (format #t "Welcome to ~a, a minimal Bourne-like shell!~%To switch back, type `,L ~a'.\n" (language-title %bournish-language) (language-name current)) (current-language %bournish-language) (set! (repl-language repl) %bournish-language))) ;;; bournish.scm ends here