mes/module/mescc/M1.scm
Danny Milosavljevic 040220acee
Add ARM backend.
* build-aux/build-guile.sh: Add ARM backend.
* lib/arm-mes/arm.M1: New file.
* module/mescc/armv4/as.scm: New file.
* module/mescc/armv4/info.scm: New file.
* module/mescc/mescc.scm: Use it.
* module/mescc/M1.scm (info->M1): Support ARM symbolic instructions,
including little endian instructions.  Align functions.
2020-06-10 13:11:07 +02:00

270 lines
11 KiB
Scheme

;;; GNU Mes --- Maxwell Equations of Software
;;; Copyright © 2016,2017,2018 Jan (janneke) Nieuwenhuizen <janneke@gnu.org>
;;;
;;; This file is part of GNU Mes.
;;;
;;; GNU Mes 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 Mes 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 Mes. If not, see <http://www.gnu.org/licenses/>.
;;; Commentary:
;;; M1.scm produces stage0' M1 assembly format
;;; Code:
(define-module (mescc M1)
#:use-module (srfi srfi-1)
#:use-module (srfi srfi-26)
#:use-module (system base pmatch)
#:use-module (mes misc)
#:use-module (mes guile)
#:use-module (mescc as)
#:use-module (mescc info)
#:export (info->M1
infos->M1
M1:merge-infos))
(define* (infos->M1 file-name infos #:key align? verbose?)
(let ((info (fold M1:merge-infos (make <info>) infos)))
(info->M1 file-name info #:align? align? #:verbose? verbose?)))
(define (M1:merge-infos o info)
(clone info
#:functions (alist-add (.functions info) (.functions o))
#:globals (alist-add (.globals info) (.globals o))
#:types (.types o)))
(define (alist-add a b)
(let* ((b-keys (map car b))
(a (filter (lambda (f) (or (cdr f) (not (member (car f) b-keys)))) a))
(a-keys (map car a)))
(append a (filter (lambda (e) (not (member (car e) a-keys))) b))))
(define (hex2:address o)
(string-append "&" o))
(define (hex2:address8 o)
(string-append "&" o " %0")) ;; FIXME: 64bit
(define (hex2:offset o)
(string-append "%" o))
(define (hex2:offset1 o)
(string-append "!" o))
(define (hex2:offset2 o)
(string-append "@" o))
(define (hex2:offset3 o)
"Note: Uses architecture-specific printer (for branch instructions)"
(string-append "^~" o))
(define hex? #t)
(define (hex2:immediate o)
(if hex? (string-append "%0x" (dec->hex o))
(string-append "%" (number->string o))))
(define (hex2:immediate1 o)
(if hex? (string-append "!0x" (dec->hex o))
(string-append "!" (number->string o))))
(define (hex2:immediate2 o)
(if hex? (string-append "@0x" (dec->hex o))
(string-append "@" (number->string o))))
(define (hex2:immediate4 o)
(if hex? (string-append "%0x" (dec->hex o))
(string-append "%" (number->string o))))
(define mesc? (string=? %compiler "mesc"))
(define (hex2:immediate8 o)
;; FIXME: #x100000000 => 0 divide-by-zero when compiled with 64 bit mesc
(if hex? (string-append "%0x" (dec->hex (if mesc? 0 (modulo o #x100000000)))
" %0x" (if (< o 0) "-1"
(dec->hex (if mesc? o (quotient o #x100000000)))))
(string-append "%" (number->string (dec->hex (if mesc? 0 (modulo o #x100000000))))
" %" (if (< o 0) "-1"
(number->string (dec->hex (if mesc? o (quotient o #x100000000))))))))
(define* (display-join o #:optional (sep ""))
(let loop ((o o))
(when (pair? o)
(display (car o))
(if (pair? (cdr o))
(display sep))
(loop (cdr o)))))
(define (global-string? o)
(and (pair? o) (pair? (car o)) (eq? (caar o) #:string)))
(define (global-extern? o)
(and=> (global:storage o) (cut eq? <> 'extern)))
(define* (info->M1 file-name o #:key align? verbose?)
(let* ((functions (.functions o))
(function-names (map car functions))
(globals (.globals o))
(globals (filter (negate (compose global-extern? cdr)) globals))
(strings (filter global-string? globals))
(strings (map car strings))
(reg-size (type:size (assoc-ref (.types o) "*"))))
(define (string->label o)
(let ((index (list-index (lambda (s) (equal? s o)) strings)))
(if index
(string-append "_string_" file-name "_" (number->string index))
(if (equal? o "%0") o ; FIXME: 64b
(error "no such string:" o)))))
(define (text->M1 o)
;;
(cond
((char? o) (text->M1 (char->integer o)))
((string? o) o)
((symbol? o) (symbol->string o))
((number? o) (let ((o (if (< o #x80) o (- o #x100))))
(if hex? (string-append "!0x"
(if (and (>= o 0) (< o 16)) "0" "")
(number->string o 16))
(string-append "!" (number->string o)))))
((and (pair? o) (keyword? (car o)))
(pmatch o
;; FIXME
((#:address (#:string ,string))
(hex2:address (string->label `(#:string ,string))))
((#:address (#:address ,address)) (guard (string? address))
(hex2:address address))
((#:address (#:address ,global)) (guard (global? global))
(hex2:address (global->string global)))
((#:address ,function) (guard (function? function))
(hex2:address (function->string function)))
((#:address ,number) (guard (number? number))
(string-join (map text->M1 (int->bv32 number))))
((#:address8 (#:string ,string))
(hex2:address8 (string->label `(#:string ,string))))
((#:address8 (#:address ,address)) (guard (string? address))
(hex2:address8 address))
((#:address8 (#:address ,global)) (guard (global? global))
(hex2:address8 (global->string global)))
((#:address8 ,function) (guard (function? function))
(hex2:address8 (function->string function)))
((#:address8 ,number) (guard (number? number))
(string-join (map text->M1 (int->bv64 number))))
((#:string ,string)
(hex2:address (string->label o)))
((#:address ,address) (guard (string? address))
(hex2:address address))
((#:address ,global) (guard (global? global))
(hex2:address (global->string global)))
((#:address8 ,address) (guard (string? address))
(hex2:address8 address))
((#:address8 ,global) (guard (global? global))
(hex2:address8 (global->string global)))
((#:offset ,offset) (hex2:offset offset))
((#:offset1 ,offset1) (hex2:offset1 offset1))
((#:offset2 ,offset2) (hex2:offset2 offset2))
((#:offset3 ,offset3) (hex2:offset3 offset3))
((#:immediate ,immediate) (hex2:immediate immediate))
((#:immediate1 ,immediate1) (hex2:immediate1 immediate1))
((#:immediate2 ,immediate2) (hex2:immediate2 immediate2))
((#:immediate4 ,immediate4) (hex2:immediate4 immediate4))
((#:immediate8 ,immediate8) (hex2:immediate8 immediate8))
(_ (error "text->M1 no match o" o))))
((pair? o) (string-join (map text->M1 o)))
(#t (error "no such text:" o))))
(define (write-function o)
(let ((name (car o))
(text (function:text (cdr o))))
(define (line->M1 o)
(cond ((eq? (car o) #:label)
(display (string-append ":" (cadr o))))
((eq? (car o) #:comment)
(display "\t\t\t\t\t# ")
(display (text->M1 (cadr o))))
((or (string? (car o)) (symbol? (car o)))
(display "\t" )
(display-join (map text->M1 o) " "))
((or (string? (car (reverse o))) (symbol? (car (reverse o))))
(display "\t" )
(display-join (map text->M1 o) " "))
(else (error "line->M1 invalid line:" o)))
(newline))
(when verbose?
(display (string-append " :" name "\n") (current-error-port)))
;; "<" aligns to multiple of 4 Bytes.
(display (string-append "\n\n<\n:" name "\n"))
(for-each line->M1 (apply append text))))
(define (write-global o)
(define (labelize o)
(if (not (string? o)) o
(let* ((label o)
(function? (member label function-names))
(string-label (string->label label))
(string? (not (equal? string-label "_string_#f"))))
(cond ((and (pair? o) (global? (cdr o))) (string-append "&" (global->string o)))
((and (not string?) (not function?)) (stderr "warning: unresolved label: ~s\n" label))
((equal? string-label "%0") o) ;; FIXME: 64b
(else (string-append "&" label))))))
(define (display-align size)
(let ((alignment (- reg-size (modulo size reg-size))))
(when (and align? (> reg-size alignment 0))
(display " ")
(display-join (map text->M1 (map (const 0) (iota alignment))) " "))
#t))
(let* ((label (cond
((and (pair? (car o)) (eq? (caar o) #:string))
(string->label (car o)))
((global? (cdr o)) (global->string (cdr o)))
(else (car o))))
(string? (string-prefix? "_string" label))
(foo (when (and verbose? (not (eq? (car (string->list label)) #\_)))
(display (string-append " :" label "\n") (current-error-port))))
(data ((compose global:value cdr) o))
(data (filter-map labelize data))
(len (length data))
(string-max (or (and=> (getenv "M1_STRING_MAX") string->number) 256))
(string-data (and string? (list-head data (1- (length data))))))
(display (string-append "\n:" label "\n"))
(if (and string-data
(< len string-max)
(char? (car data))
(eq? (last data) #\nul)
(not (find (cut memq <> '(#\")) string-data))
(not (any (lambda (ch)
(or (and (not (memq ch '(#\tab #\newline)))
(< (char->integer ch) #x20))
(>= (char->integer ch) #x80))) string-data)))
(let ((text string-data))
(display (string-append "\"" (list->string string-data) "\""))
(display-align (1+ (length string-data))))
(let ((text (map text->M1 data)))
(display-join text " ")
(display-align (length text))))
(newline)))
(when verbose?
(display "M1: functions\n" (current-error-port)))
(for-each write-function (filter cdr functions))
(when (assoc-ref functions "main")
(display "\n\n:ELF_data\n") ;; FIXME
(display "\n\n:HEX2_data\n"))
(when verbose?
(display "M1: globals\n" (current-error-port)))
(for-each write-global (filter global-string? globals))
(for-each write-global (filter (negate global-string?) globals))))