;;; Repl commands ;; Copyright (C) 2001 Free Software Foundation, Inc. ;; This program 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 2, or (at your option) ;; any later version. ;; ;; This program 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 this program; see the file COPYING. If not, write to ;; the Free Software Foundation, Inc., 59 Temple Place - Suite 330, ;; Boston, MA 02111-1307, USA. ;;; Code: (define-module (system repl command) :use-syntax (system base syntax) :use-module (system base pmatch) :use-module (system base compile) :use-module (system repl common) :use-module (system vm core) :autoload (system base language) (lookup-language) :autoload (system il glil) (pprint-glil) :autoload (system vm disasm) (disassemble-program disassemble-objcode) :autoload (system vm debug) (vm-debugger vm-backtrace) :autoload (system vm trace) (vm-trace vm-trace-on vm-trace-off) :autoload (system vm profile) (vm-profile) :use-module (ice-9 format) :use-module (ice-9 session) :use-module (ice-9 documentation) :use-module (ice-9 and-let-star) :export (meta-command)) ;;; ;;; Meta command interface ;;; (define *command-table* '((help (help h) (apropos a) (describe d) (option o) (quit q)) (module (module m) (import i) (load l) (binding b)) (language (language L)) (compile (compile c) (compile-file cc) (disassemble x) (disassemble-file xx)) (profile (time t) (profile pr)) (debug (backtrace bt) (debugger db) (trace tr) (step st)) (system (gc) (statistics stat)))) (define (group-name g) (car g)) (define (group-commands g) (cdr g)) (define *command-module* (current-module)) (define (command-name c) (car c)) (define (command-abbrev c) (if (null? (cdr c)) #f (cadr c))) (define (command-procedure c) (module-ref *command-module* (command-name c))) (define (command-doc c) (procedure-documentation (command-procedure c))) (define (command-usage c) (let ((doc (command-doc c))) (substring doc 0 (string-index doc #\newline)))) (define (command-summary c) (let* ((doc (command-doc c)) (start (1+ (string-index doc #\newline)))) (cond ((string-index doc #\newline start) => (lambda (end) (substring doc start end))) (else (substring doc start))))) (define (lookup-group name) (assq name *command-table*)) (define (lookup-command key) (let loop ((groups *command-table*) (commands '())) (cond ((and (null? groups) (null? commands)) #f) ((null? commands) (loop (cdr groups) (cdar groups))) ((memq key (car commands)) (car commands)) (else (loop groups (cdr commands)))))) (define (display-group group . opts) (format #t "~:(~A~) Commands [abbrev]:~2%" (group-name group)) (for-each (lambda (c) (display-summary (command-usage c) (command-abbrev c) (command-summary c))) (group-commands group)) (newline)) (define (display-command command) (display "Usage: ") (display (command-doc command)) (newline)) (define (display-summary usage abbrev summary) (let ((abbrev (if abbrev (format #f "[,~A]" abbrev) ""))) (format #t " ,~24A ~8@A - ~A\n" usage abbrev summary))) (define (meta-command repl line) (let ((input (call-with-input-string (string-append "(" line ")") read))) (if (not (null? input)) (do ((key (car input)) (args (cdr input) (cdr args)) (opts '() (cons (make-keyword-from-dash-symbol (car args)) opts))) ((or (null? args) (not (symbol? (car args))) (not (eq? (string-ref (symbol->string (car args)) 0) #\-))) (let ((c (lookup-command key))) (if c (cond ((memq :h opts) (display-command c)) (else (apply (command-procedure c) repl (append! args (reverse! opts))))) (user-error "Unknown meta command: ~A" key)))))))) ;;; ;;; Help commands ;;; (define (help repl . args) "help [GROUP] List available meta commands. A command group name can be given as an optional argument. Without any argument, a list of help commands and command groups are displayed, as you have already seen ;)" (pmatch args (() (display-group (lookup-group 'help)) (display "Command Groups:\n\n") (display-summary "help all" #f "List all commands") (for-each (lambda (g) (let* ((name (symbol->string (group-name g))) (usage (string-append "help " name)) (header (string-append "List " name " commands"))) (display-summary usage #f header))) (cdr *command-table*)) (newline) (display "Type `,COMMAND -h' to show documentation of each command.") (newline)) ((all) (for-each display-group *command-table*)) ((,group) (guard (lookup-group group)) (display-group (lookup-group group))) (else (user-error "Unknown command group: ~A" (car args))))) (define guile:apropos apropos) (define (apropos repl regexp) "apropos REGEXP Find bindings/modules/packages." (guile:apropos (->string regexp))) (define (describe repl obj) "describe OBJ Show description/documentation." (display (object-documentation (repl-eval repl obj))) (newline)) (define (option repl . args) "option [KEY VALUE] List/show/set options." (pmatch args (() (for-each (lambda (key+val) (format #t "~A\t~A\n" (car key+val) (cdr key+val))) (repl-options repl))) ((,key) (display (repl-option-ref repl key)) (newline)) ((,key ,val) (repl-option-set! repl key val) (case key ((trace) (let ((vm (repl-vm repl))) (if val (apply vm-trace-on vm val) (vm-trace-off vm)))))))) (define (quit repl) "quit Quit this session." (throw 'quit)) ;;; ;;; Module commands ;;; (define (module repl . args) "module [MODULE] Change modules / Show current module." (pmatch args (() (puts (module-name (current-module)))) ((,mod-name) (set-current-module (resolve-module mod-name))))) (define (import repl . args) "import [MODULE ...] Import modules / List those imported." (let () (define (use name) (let ((mod (resolve-interface name))) (if mod (module-use! (current-module) mod) (user-error "No such module: ~A" name)))) (if (null? args) (for-each puts (map module-name (module-uses (current-module)))) (for-each use args)))) (define (load repl file . opts) "load FILE Load a file in the current module. -f Load source file (see `compile')" (let* ((file (->string file)) (objcode (if (memq :f opts) (apply load-source-file file opts) (apply load-file file opts)))) (vm-load (repl-vm repl) objcode))) (define (binding repl . opts) "binding List current bindings." (module-for-each (lambda (k v) (format #t "~23A ~A\n" k v)) (current-module))) ;;; ;;; Language commands ;;; (define (language repl name) "language LANGUAGE Change languages." (set! (repl-language repl) (lookup-language name)) (repl-welcome repl)) ;;; ;;; Compile commands ;;; (define (compile repl form . opts) "compile FORM Generate compiled code. -e Stop after expanding syntax/macro -t Stop after translating into GHIL -c Stop after generating GLIL -O Enable optimization -D Add debug information" (let ((x (apply repl-compile repl form opts))) (cond ((or (memq :e opts) (memq :t opts)) (puts x)) ((memq :c opts) (pprint-glil x)) (else (disassemble-objcode x))))) (define guile:compile-file compile-file) (define (compile-file repl file . opts) "compile-file FILE Compile a file." (apply guile:compile-file (->string file) opts)) (define (disassemble repl prog) "disassemble PROGRAM Disassemble a program." (disassemble-program (repl-eval repl prog))) (define (disassemble-file repl file) "disassemble-file FILE Disassemble a file." (disassemble-objcode (load-objcode (->string file)))) ;;; ;;; Profile commands ;;; (define (time repl form) "time FORM Time execution." (let* ((vms-start (vm-stats (repl-vm repl))) (gc-start (gc-run-time)) (tms-start (times)) (result (repl-eval repl form)) (tms-end (times)) (gc-end (gc-run-time)) (vms-end (vm-stats (repl-vm repl)))) (define (get proc start end) (/ (- (proc end) (proc start)) internal-time-units-per-second)) (repl-print repl result) (display "clock utime stime cutime cstime gctime\n") (format #t "~5,2F ~5,2F ~5,2F ~6,2F ~6,2F ~6,2F\n" (get tms:clock tms-start tms-end) (get tms:utime tms-start tms-end) (get tms:stime tms-start tms-end) (get tms:cutime tms-start tms-end) (get tms:cstime tms-start tms-end) (get identity gc-start gc-end)) result)) (define (profile repl form . opts) "profile FORM Profile execution." (apply vm-profile (repl-vm repl) (repl-compile repl form) opts)) ;;; ;;; Debug commands ;;; (define (backtrace repl) "backtrace Display backtrace." (vm-backtrace (repl-vm repl))) (define (debugger repl) "debugger Start debugger." (vm-debugger (repl-vm repl))) (define (trace repl form . opts) "trace FORM Trace execution. -s Display stack -l Display local variables -e Display external variables -b Bytecode level trace" (apply vm-trace (repl-vm repl) (repl-compile repl form) opts)) (define (step repl) "step FORM Step execution." (display "Not implemented yet\n")) ;;; ;;; System commands ;;; (define guile:gc gc) (define (gc repl) "gc Garbage collection." (guile:gc)) (define (statistics repl) "statistics Display statistics." (let ((this-tms (times)) (this-vms (vm-stats (repl-vm repl))) (this-gcs (gc-stats)) (last-tms (repl-tm-stats repl)) (last-vms (repl-vm-stats repl)) (last-gcs (repl-gc-stats repl))) ;; GC times (let ((this-times (assq-ref this-gcs 'gc-times)) (last-times (assq-ref last-gcs 'gc-times))) (display-diff-stat "GC times:" #t this-times last-times "times") (newline)) ;; Memory size (let ((this-cells (assq-ref this-gcs 'cells-allocated)) (this-heap (assq-ref this-gcs 'cell-heap-size)) (this-bytes (assq-ref this-gcs 'bytes-malloced)) (this-malloc (assq-ref this-gcs 'gc-malloc-threshold))) (display-stat-title "Memory size:" "current" "limit") (display-stat "heap" #f this-cells this-heap "cells") (display-stat "malloc" #f this-bytes this-malloc "bytes") (newline)) ;; Cells collected (let ((this-marked (assq-ref this-gcs 'cells-marked)) (last-marked (assq-ref last-gcs 'cells-marked)) (this-swept (assq-ref this-gcs 'cells-swept)) (last-swept (assq-ref last-gcs 'cells-swept))) (display-stat-title "Cells collected:" "diff" "total") (display-diff-stat "marked" #f this-marked last-marked "cells") (display-diff-stat "swept" #f this-swept last-swept "cells") (newline)) ;; GC time taken (let ((this-mark (assq-ref this-gcs 'gc-mark-time-taken)) (last-mark (assq-ref last-gcs 'gc-mark-time-taken)) (this-sweep (assq-ref this-gcs 'gc-sweep-time-taken)) (last-sweep (assq-ref last-gcs 'gc-sweep-time-taken)) (this-total (assq-ref this-gcs 'gc-time-taken)) (last-total (assq-ref last-gcs 'gc-time-taken))) (display-stat-title "GC time taken:" "diff" "total") (display-time-stat "mark" this-mark last-mark) (display-time-stat "sweep" this-sweep last-sweep) (display-time-stat "total" this-total last-total) (newline)) ;; Process time spent (let ((this-utime (tms:utime this-tms)) (last-utime (tms:utime last-tms)) (this-stime (tms:stime this-tms)) (last-stime (tms:stime last-tms)) (this-cutime (tms:cutime this-tms)) (last-cutime (tms:cutime last-tms)) (this-cstime (tms:cstime this-tms)) (last-cstime (tms:cstime last-tms))) (display-stat-title "Process time spent:" "diff" "total") (display-time-stat "user" this-utime last-utime) (display-time-stat "system" this-stime last-stime) (display-time-stat "child user" this-cutime last-cutime) (display-time-stat "child system" this-cstime last-cstime) (newline)) ;; VM statistics (let ((this-time (vms:time this-vms)) (last-time (vms:time last-vms)) (this-clock (vms:clock this-vms)) (last-clock (vms:clock last-vms))) (display-stat-title "VM statistics:" "diff" "total") (display-time-stat "time spent" this-time last-time) (display-diff-stat "bogoclock" #f this-clock last-clock "clock") (display-mips-stat "bogomips" this-time this-clock last-time last-clock) (newline)) ;; Save statistics ;; Save statistics (set! (repl-tm-stats repl) this-tms) (set! (repl-vm-stats repl) this-vms) (set! (repl-gc-stats repl) this-gcs))) (define (display-stat title flag field1 field2 unit) (let ((str (format #f "~~20~AA ~~10@A /~~10@A ~~A~~%" (if flag "" "@")))) (format #t str title field1 field2 unit))) (define (display-stat-title title field1 field2) (display-stat title #t field1 field2 "")) (define (display-diff-stat title flag this last unit) (display-stat title flag (- this last) this unit)) (define (display-time-stat title this last) (define (conv num) (format #f "~10,2F" (/ num internal-time-units-per-second))) (display-stat title #f (conv (- this last)) (conv this) "s")) (define (display-mips-stat title this-time this-clock last-time last-clock) (define (mips time clock) (if (= time 0) "----" (format #f "~10,2F" (/ clock time 1000000)))) (display-stat title #f (mips (- this-time last-time) (- this-clock last-clock)) (mips this-time this-clock) "mips"))