;;; -*-scheme-*- ;;; Mes --- Maxwell Equations of Software ;;; Copyright © 2016,2017 Jan Nieuwenhuizen ;;; ;;; This file is part of Mes. ;;; ;;; 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. ;;; ;;; 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 Mes. If not, see . ;;; Commentary: ;;; compiler.mes produces an i386 binary from the C produced by ;;; Nyacc c99. ;;; Code: (cond-expand (guile-2 (set-port-encoding! (current-output-port) "ISO-8859-1")) (guile) (mes (mes-use-module (nyacc lang c99 parser)) (mes-use-module (mes elf-util)) (mes-use-module (mes pmatch)) (mes-use-module (mes elf)) (mes-use-module (mes as-i386)) (mes-use-module (mes libc)) (mes-use-module (mes optargs)))) (define (logf port string . rest) (apply format (cons* port string rest)) (force-output port) #t) (define (stderr string . rest) (apply logf (cons* (current-error-port) string rest))) (define (gnuc-xdef? name mode) (if (equal? name "__GNUC__") #f (eq? mode 'code))) (define (mescc) (parse-c99 #:inc-dirs (string-split (getenv "C_INCLUDE_PATH") #\:) #:cpp-defs '( "_POSIX_SOURCE=0" "__GNUC__=0" "__MESC__=1" "__NYACC__=1" ;; REMOVEME "STDIN=0" "STDOUT=1" "STDERR=2" "O_RDONLY=0" "INT_MIN=-2147483648" "INT_MAX=2147483647" "VERSION=\"0.4\"" "PREFIX=\"\"" ) #:xdef? gnuc-xdef? #:mode 'code )) (define (write-any x) (write-char (cond ((char? x) x) ((and (number? x) (< (+ x 256) 0)) (format (current-error-port) "***BROKEN*** x=~a ==> ~a\n" x (dec->hex x)) (integer->char #xaa)) ((number? x) (integer->char (if (>= x 0) x (+ x 256)))) ((procedure? x) (stderr "write-any: proc: ~a\n" x) (stderr " ==> ~a\n" (map dec->hex (x '() '() 0 0))) barf) (else (stderr "write-any: ~a\n" x) barf)))) (define (ast:function? o) (and (pair? o) (eq? (car o) 'fctn-defn))) (define (.name o) (pmatch o ((fctn-defn _ (ftn-declr (ident ,name) _) _) name) ((fctn-defn _ (ptr-declr (pointer) (ftn-declr (ident ,name) _)) _) name) ((param-decl _ (param-declr (ident ,name))) name) ((param-decl _ (param-declr (ptr-declr (pointer) (ident ,name)))) name) ((param-decl _ (param-declr (ptr-declr (pointer) (array-of (ident ,name))))) name) (_ (format (current-error-port) "SKIP: .name =~a\n" o)))) (define (.type o) (pmatch o ((param-decl (decl-spec-list (type-spec ,type)) _) (decl->type type)) ((param-decl ,type _) type) (_ (format (current-error-port) "SKIP: .type =~a\n" o)))) (define (.statements o) (pmatch o ((fctn-defn _ (ftn-declr (ident ,name) _) (compd-stmt (block-item-list . ,statements))) statements) ((fctn-defn _ (ptr-declr (pointer) (ftn-declr (ident ,name) _)) (compd-stmt (block-item-list . ,statements))) statements))) (define ') (define ') (define ') (define ') (define ') (define ') (define ') (define ') (define ') (define* (make o #:key (types '()) (constants '()) (functions '()) (globals '()) (init '()) (locals '()) (function #f) (text '())) (pmatch o ( (list (cons types) (cons constants) (cons functions) (cons globals) (cons init) (cons locals) (cons function) (cons text))))) (define (.types o) (pmatch o (( . ,alist) (assq-ref alist )))) (define (.constants o) (pmatch o (( . ,alist) (assq-ref alist )))) (define (.functions o) (pmatch o (( . ,alist) (assq-ref alist )))) (define (.globals o) (pmatch o (( . ,alist) (assq-ref alist )))) (define (.init o) (pmatch o (( . ,alist) (assq-ref alist )))) (define (.locals o) (pmatch o (( . ,alist) (assq-ref alist )))) (define (.function o) (pmatch o (( . ,alist) (assq-ref alist )))) (define (.text o) (pmatch o (( . ,alist) (assq-ref alist )))) (define (info? o) (and (pair? o) (eq? (car o) ))) (define (clone o . rest) (cond ((info? o) (let ((types (.types o)) (constants (.constants o)) (functions (.functions o)) (globals (.globals o)) (init (.init o)) (locals (.locals o)) (function (.function o)) (text (.text o))) (let-keywords rest #f ((types types) (constants constants) (functions functions) (globals globals) (init init) (locals locals) (function function) (text text)) (make #:types types #:constants constants #:functions functions #:globals globals #:init init #:locals locals #:function function #:text text)))))) (define (push-global globals) (lambda (o) (list (lambda (f g ta t d) (i386:push-global (+ (data-offset o g) d)))))) (define (push-local locals) (lambda (o) (list (lambda (f g ta t d) (i386:push-local (local:id o)))))) (define (push-global-address globals) (lambda (o) (list (lambda (f g ta t d) (i386:push-global-address (+ (data-offset o g) d)))))) (define (push-local-address locals) (lambda (o) (list (lambda (f g ta t d) (i386:push-local-address (local:id o)))))) (define push-global-de-ref push-global) (define (push-local-de-ref locals) (lambda (o) (list (lambda (f g ta t d) (i386:push-local-de-ref (local:id o)))))) (define (string->global string) (make-global (add-s:-prefix string) "string" 0 (append (string->list string) (list #\nul)))) (define (ident->global name type pointer value) (make-global name type pointer (int->bv32 value))) (define (make-local name type pointer id) (cons name (list type pointer id))) (define local:type car) (define local:pointer cadr) (define local:id caddr) (define (push-ident info) (lambda (o) (let ((local (assoc-ref (.locals info) o))) (if local ((push-local (.locals info)) local) (let ((global (assoc-ref (.globals info) o))) (if global ((push-global (.globals info)) o) ;; FIXME: char*/int (let ((constant (assoc-ref (.constants info) o))) (if constant (list (lambda (f g ta t d) (append (i386:value->accu constant) (i386:push-accu)))) TODO:push-function)))))))) (define (push-ident-address info) (lambda (o) (let ((local (assoc-ref (.locals info) o))) (if local ((push-local-address (.locals info)) local) ((push-global-address (.globals info)) o))))) (define (push-ident-de-ref info) (lambda (o) (let ((local (assoc-ref (.locals info) o))) (if local ((push-local-de-ref (.locals info)) local) ((push-global-de-ref (.globals info)) o))))) (define (expr->arg info) ;; FIXME: get Mes curried-definitions (lambda (o) (let ((text (.text info))) ;;(stderr "expr->arg o=~s\n" o) (pmatch o ((p-expr (fixed ,value)) (let ((value (cstring->number value))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:value->accu value) (i386:push-accu)))))))) ((neg (p-expr (fixed ,value))) (let ((value (- (cstring->number value)))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:value->accu value) (i386:push-accu)))))))) ((p-expr (string ,string)) (clone info #:text (append text ((push-global-address info) (add-s:-prefix string))))) ((p-expr (ident ,name)) (clone info #:text (append text ((push-ident info) name)))) ;; g_cells[0] ((array-ref (p-expr (fixed ,index)) (p-expr (ident ,array))) (let* ((index (cstring->number index)) (type (ident->type info array)) (size (type->size info type))) (clone info #:text (append text ((ident->base info) array) (list (lambda (f g ta t d) (append (i386:value->accu (* size index)) (if (eq? size 1) (i386:byte-base-mem->accu) (i386:base-mem->accu)) (i386:push-accu)))))))) ;; g_cells[i] ((array-ref (p-expr (ident ,index)) (p-expr (ident ,array))) (let* ((type (ident->type info array)) (size (type->size info type))) (clone info #:text (append text ((ident->base info) index) (list (lambda (f g ta t d) (append (i386:base->accu) (if (< size 4) '() (append ;; FIXME (i386:accu+accu) (if (= size 12) (i386:accu+base) '())))))) ((ident->base info) array) (list (lambda (f g ta t d) (if (eq? size 1) (i386:byte-base-mem->accu) (i386:base-mem->accu)))) (list (lambda (f g ta t d) (i386:push-accu))))))) ((de-ref (p-expr (ident ,name))) (clone info #:text (append text ((push-ident-de-ref info) name)))) ((ref-to (p-expr (ident ,name))) (clone info #:text (append text ((push-ident-address info) name)))) ;; f (car (x)) ((fctn-call . ,call) (let* (;;(empty (clone info #:text '())) ;;(info ((ast->info empty) o)) (info ((ast->info info) o)) (text (.text info))) (clone info #:text (append text (list (lambda (f g ta t d) (i386:push-accu))))))) ;; f (CAR (x)) ((d-sel . ,d-sel) (let* (;;(empty (clone info #:text '())) ;;(expr ((expr->accu empty) `(d-sel ,@d-sel))) (expr ((expr->accu info) `(d-sel ,@d-sel))) (text (.text expr))) (clone info #:text (append text (list (lambda (f g ta t d) (i386:push-accu))))))) ((p-expr (char ,char)) (let ((char (char->integer (car (string->list char))))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:value->accu char) (i386:push-accu))))))) ) ;; f (0 + x) ;;; aargh ;;;((add (p-expr (fixed ,value)) (d-sel (ident cdr) (array-ref (p-expr (ident x)) (p-expr (ident g_cells)))))) ((cast (type-name (decl-spec-list (type-spec (fixed-type _))) (abs-declr (pointer))) ,cast) ((expr->arg info) cast)) (_ ;; (stderr "catch: expr->arg=~s\n" o) (let* ((info ((expr->accu info) o)) (text (.text info))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:accu-zero?) (i386:push-accu)))))))) (_ (stderr "SKIP: expr->arg=~s\n" o) barf 0))))) ;; FIXME: see ident->base (define (ident->accu info) (lambda (o) (let ((local (assoc-ref (.locals info) o)) (global (assoc-ref (.globals info) o)) (constant (assoc-ref (.constants info) o))) ;; (stderr "ident->accu: local[~a]: ~a\n" o (and local (local:id local))) ;; (stderr "ident->accu: global[~a]: ~a\n" o global) ;; (stderr "globals: ~a\n" (.globals info)) ;; (if (and (not global) (not (local:id local))) ;; (stderr "globals: ~a\n" (map car (.globals info)))) (if local (let* ((ptr (local:pointer local)) (type (ident->type info o)) (size (and type (type->size info type)))) ;;(stderr "ident->accu PTR[~a]: ~a\n" o ptr) ;;(stderr "type: ~s\n" type) ;;(stderr "ident->accu PTR[~a]: ~a\n" o ptr) ;;(stderr "locals: ~s\n" locals) (case ptr ((-1) (list (lambda (f g ta t d) (i386:local-ptr->accu (local:id local))))) ((1) (list (lambda (f g ta t d) (i386:local->accu (local:id local))))) (else (list (lambda (f g ta t d) (if (= size 1) (i386:byte-local->accu (local:id local)) (i386:local->accu (local:id local)))))))) (if global (let ((ptr (ident->pointer info o))) ;;(stderr "ident->accu PTR[~a]: ~a\n" o ptr) (case ptr ((-1) (list (lambda (f g ta t d) (i386:global->accu (+ (data-offset o g) d))))) (else (list (lambda (f g ta t d) (i386:global-address->accu (+ (data-offset o g) d))))))) (if constant (list (lambda (f g ta t d) (i386:value->accu constant))) (list (lambda (f g ta t d) (i386:global->accu (+ ta (function-offset o f))))))))))) (define (value->accu v) (list (lambda (f g ta t d) (i386:value->accu v)))) (define (accu->ident info) (lambda (o) (let ((local (assoc-ref (.locals info) o))) (if local (list (lambda (f g ta t d) (i386:accu->local (local:id local)))) (list (lambda (f g ta t d) (i386:accu->global (+ (data-offset o g) d)))))))) (define (base->ident info) (lambda (o) (let ((local (assoc-ref (.locals info) o))) (if local (list (lambda (f g ta t d) (i386:base->local (local:id local)))) (list (lambda (f g ta t d) (i386:base->global (+ (data-offset o g) d)))))))) (define (base->ident-address info) (lambda (o) (let ((local (assoc-ref (.locals info) o))) (if local (list (lambda (f g ta t d) (append (i386:local->accu (local:id local)) (i386:byte-base->accu-address)))) TODO:base->ident-address-global)))) (define (value->ident info) (lambda (o value) (let ((local (assoc-ref (.locals info) o))) (if local (list (lambda (f g ta t d) (i386:value->local (local:id local) value))) (list (lambda (f g ta t d) (i386:value->global (+ (data-offset o g) d) value))))))) (define (ident-add info) (lambda (o n) (let ((local (assoc-ref (.locals info) o))) (if local (list (lambda (f g ta t d) (i386:local-add (local:id local) n))) (list (lambda (f g ta t d) (i386:global-add (+ (data-offset o g) d) n))))))) ;; FIXME: see ident->accu (define (ident->base info) (lambda (o) (let ((local (assoc-ref (.locals info) o))) ;;(stderr "ident->base: local[~a]: ~a\n" o (and local (local:id local))) (if local (let* ((ptr (local:pointer local)) (type (ident->type info o)) (size (and type (type->size info type)))) (case ptr ((-1) (list (lambda (f g ta t d) (i386:local-ptr->base (local:id local))))) ((1) (list (lambda (f g ta t d) (i386:local->base (local:id local))))) (else (list (lambda (f g ta t d) (if (= size 1) (i386:byte-local->base (local:id local)) (i386:local->base (local:id local)))))))) (let ((global (assoc-ref (.globals info) o) )) (if global (let ((ptr (ident->pointer info o))) ;;(stderr "ident->accu PTR[~a]: ~a\n" o ptr) (case ptr ((-1) (list (lambda (f g ta t d) (i386:global->base (+ (data-offset o g) d))))) (else (list (lambda (f g ta t d) (i386:global-address->base (+ (data-offset o g) d))))))) (let ((constant (assoc-ref (.constants info) o))) (if constant (list (lambda (f g ta t d) (i386:value->base constant))) (list (lambda (f g ta t d) (i386:global->base (+ ta (function-offset o f))))))))))))) (define (expr->accu info) (lambda (o) (let ((text (.text info)) (locals (.locals info)) (globals (.globals info))) ;;(stderr "expr->accu o=~a\n" o) (pmatch o ((p-expr (string ,string)) (clone info #:text (append text (list (lambda (f g ta t d) ;;(stderr "OFF[~a]: ~a\n" string (data-offset string globals)) ;;(stderr "globals: ~s\n" (map car globals)) (i386:global->accu (+ (data-offset (add-s:-prefix string) globals) d))))))) ((p-expr (fixed ,value)) (clone info #:text (append text (value->accu (cstring->number value))))) ((p-expr (ident ,name)) (clone info #:text (append text ((ident->accu info) name)))) ((fctn-call . _) ((ast->info info) `(expr-stmt ,o))) ((not (fctn-call . _)) ((ast->info info) o)) ((neg (p-expr (fixed ,value))) (clone info #:text (append text (value->accu (- (cstring->number value)))))) ((initzer ,initzer) ((expr->accu info) initzer)) ((ref-to (p-expr (ident ,name))) (clone info #:text (append (.text info) ((ident->accu info) name)))) ((sizeof-type (type-name (decl-spec-list (type-spec (struct-ref (ident ,name)))))) (let* ((type (list "struct" name)) (fields (or (type->description info type) '())) (size (type->size info type))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:value->accu size)))))))) ;; c+p expr->arg ((array-ref (p-expr (fixed ,index)) (p-expr (ident ,array))) (let* ((index (cstring->number index)) (type (ident->type info array)) (size (type->size info type))) (clone info #:text (append text ((ident->base info) array) (list (lambda (f g ta t d) (append (i386:value->accu (* size index)) (if (eq? size 1) (i386:byte-base-mem->accu) (i386:base-mem->accu))))))))) ;; c+p expr->arg ((array-ref (p-expr (ident ,index)) (p-expr (ident ,array))) (let* ((type (ident->type info array)) (size (type->size info type))) (clone info #:text (append text ((ident->base info) index) (list (lambda (f g ta t d) (append (i386:base->accu) (if (< size 4) '() (append ;; FIXME (i386:accu+accu) (if (= size 12) (i386:accu+base) '())))))) ((ident->base info) array) (list (lambda (f g ta t d) (if (eq? size 1) (i386:byte-base-mem->accu) (i386:base-mem->accu)))))))) ;; f.field ((d-sel (ident ,field) (p-expr (ident ,array))) (let* ((type (ident->type info array)) (fields (type->description info type)) (field-size 4) ;; FIXME:4, not fixed (offset (* field-size (1- (length (member field (reverse fields) (lambda (a b) (equal? a (cdr b)))))))) (text (.text info))) (clone info #:text (append text ((ident->accu info) array) (list (lambda (f g ta t d) (i386:mem+n->accu offset))))))) ;; g_cells[10].type ((d-sel (ident ,field) (array-ref (p-expr (fixed ,index)) (p-expr (ident ,array)))) (let* ((type (ident->type info array)) (fields (or (type->description info type) '())) (size (type->size info type)) (count (length fields)) (field-size 4) ;; FIXME:4, not fixed (offset (* field-size (1- (length (member field (reverse fields) (lambda (a b) (equal? a (cdr b)))))))) (index (cstring->number index)) (text (.text info))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:value->base index) (i386:base->accu) (if (> count 1) (i386:accu+accu) '()) (if (= count 3) (i386:accu+base) '()) (i386:accu-shl 2)))) ((ident->base info) array) (list (lambda (f g ta t d) (i386:base-mem+n->accu offset))))))) ;; g_cells[x].type ((d-sel (ident ,field) (array-ref (p-expr (ident ,index)) (p-expr (ident ,array)))) (let* ((type (ident->type info array)) (fields (or (type->description info type) '())) (size (type->size info type)) (count (length fields)) (field-size 4) ;; FIXME:4, not fixed (offset (* field-size (1- (length (member field (reverse fields) (lambda (a b) (equal? a (cdr b)))))))) (text (.text info))) (clone info #:text (append text ((ident->base info) index) (list (lambda (f g ta t d) (append (i386:base->accu) (if (> count 1) (i386:accu+accu) '()) (if (= count 3) (i386:accu+base) '()) (i386:accu-shl 2)))) ((ident->base info) array) (list (lambda (f g ta t d) (i386:base-mem+n->accu offset))))))) ;; g_functions[g_cells[fn].cdr].arity ;; INDEX0: g_cells[fn].cdr ;;; index: (d-sel (ident ,cdr) (array-ref (p-expr (ident ,fn)) (p-expr (ident ,g_cells)))) ;;((d-sel (ident ,arity) (array-ref (d-sel (ident ,cdr) (array-ref (p-expr (ident ,fn)) (p-expr (ident ,g_cells)))) (p-expr (ident ,g_functions))))) ((d-sel (ident ,field) (array-ref ,index (p-expr (ident ,array)))) (let* ((empty (clone info #:text '())) (index ((expr->accu empty) index)) (type (ident->type info array)) (fields (or (type->description info type) '())) (size (type->size info type)) (count (length fields)) (field-size 4) ;; FIXME:4, not fixed (rest (or (member field (reverse fields) (lambda (a b) (equal? a (cdr b)))) barf '())) (offset (* field-size (1- (length rest)))) (text (.text info))) (clone info #:text (append text (.text index) (list (lambda (f g ta t d) (append (i386:accu->base) (if (> count 1) (i386:accu+accu) '()) (if (= count 3) (i386:accu+base) '()) (i386:accu-shl 2)))) ((ident->base info) array) (list (lambda (f g ta t d) (i386:base-mem+n->accu offset))))))) ;;; FIXME: FROM INFO ...only zero?! ((p-expr (fixed ,value)) (let ((value (cstring->number value))) (clone info #:text (append text (list (lambda (f g ta t d) (i386:value->accu value))))))) ((p-expr (char ,char)) (let ((char (char->integer (car (string->list char))))) (clone info #:text (append text (list (lambda (f g ta t d) (i386:value->accu char))))))) ((p-expr (ident ,name)) (clone info #:text (append text ((ident->accu info) name)))) ((de-ref (p-expr (ident ,name))) (let* ((type (ident->type info name)) (size (and type (type->size info type)))) (clone info #:text (append text ((ident->accu info) name) (list (lambda (f g ta t d) (if (= size 1) (i386:byte-mem->accu) (i386:mem->accu)))))))) ;; GRR --> info again??!? ((fctn-call . ,call) ((ast->info info) `(expr-stmt ,o))) ((cond-expr . ,cond-expr) ((ast->info info) `(expr-stmt ,o))) ;; FIXME ;;((post-inc ,expr) ((ast->info info) `(expr-stmt ,o))) ((post-inc (p-expr (ident ,name))) (clone info #:text (append text ((ident->accu info) name) ((ident-add info) name 1)))) ;; GRR --> info again??!? ((post-inc ,expr) ((ast->info info) `(expr-stmt ,o))) ((post-dec ,expr) ((ast->info info) `(expr-stmt ,o))) ((pre-inc ,expr) ((ast->info info) `(expr-stmt ,o))) ((pre-dec ,expr) ((ast->info info) `(expr-stmt ,o))) ((add (p-expr (ident ,name)) ,b) (let* ((empty (clone info #:text '())) (base ((expr->base empty) b))) (clone info #:text (append text (.text base) ((ident->accu info) name) (list (lambda (f g ta t d) (i386:accu+base))))))) ((add ,a ,b) (let* ((empty (clone info #:text '())) (accu ((expr->accu empty) a)) (base ((expr->base empty) b))) (clone info #:text (append text (.text accu) (.text base) (list (lambda (f g ta t d) (i386:accu+base))))))) ((sub ,a ,b) (let* ((empty (clone info #:text '())) (accu ((expr->accu empty) a)) (base ((expr->base empty) b))) (clone info #:text (append text (.text accu) (.text base) (list (lambda (f g ta t d) (i386:accu-base))))))) ((bitwise-or ,a ,b) (let* ((empty (clone info #:text '())) (accu ((expr->accu empty) a)) (base ((expr->base empty) b))) (clone info #:text (append text (.text accu) (.text base) (list (lambda (f g ta t d) (i386:accu-or-base))))))) ((lshift ,a ,b) (let* ((empty (clone info #:text '())) (accu ((expr->accu empty) a)) (base ((expr->base empty) b))) (clone info #:text (append text (.text accu) (.text base) (list (lambda (f g ta t d) (i386:accu<accu empty) a)) (base ((expr->base empty) b))) (clone info #:text (append text (.text accu) (.text base) (list (lambda (f g ta t d) (i386:accu>>base))))))) ((div ,a ,b) (let* ((empty (clone info #:text '())) (accu ((expr->accu empty) a)) (base ((expr->base empty) b))) (clone info #:text (append text (.text accu) (.text base) (list (lambda (f g ta t d) (i386:accu/base))))))) ((mod ,a ,b) (let* ((empty (clone info #:text '())) (accu ((expr->accu empty) a)) (base ((expr->base empty) b))) (clone info #:text (append text ;;FIXME:empty (.text accu) (.text base) (list (lambda (f g ta t d) (i386:accu%base))))))) ((mul ,a ,b) (let* ((empty (clone info #:text '())) (accu ((expr->accu empty) a)) (base ((expr->base empty) b))) (clone info #:text (append text (.text accu) (.text base) (list (lambda (f g ta t d) (i386:accu*base))))))) ;; FIXME: c/p ast->info ((eq ,a ,b) (let* ((base ((expr->base info) a)) (empty (clone base #:text '())) (accu ((expr->accu empty) b))) (clone info #:text (append (.text base) (list (lambda (f g ta t d) (i386:push-base))) (.text accu) (list (lambda (f g ta t d) (i386:pop-base))) (list (lambda (f g ta t d) (i386:sub-base))))))) ;; FIXME: c/p ast->info ((lt ,a ,b) (let* ((base ((expr->base info) a)) (empty (clone base #:text '())) (accu ((expr->accu empty) b))) (clone info #:text (append (.text base) (.text accu) (list (lambda (f g ta t d) (i386:base-sub))))))) ;; FIXME: ...c/p ast->info ((neg (p-expr (ident ,name))) (clone info #:text (append text ((ident->base info) name) (list (lambda (f g ta t d) (i386:value->accu 0))) (list (lambda (f g ta t d) (i386:sub-base)))))) ;;((cast (type-name (decl-spec-list (type-spec (typename "SCM"))) (abs-declr (declr-fctn (declr-scope (abs-declr (pointer))) (param-list (param-decl (decl-spec-list (type-spec (typename "SCM")))))))) (d-sel (ident "function") (array-ref (d-sel (ident "cdr") (array-ref (p-expr (ident "fn")) (p-expr (ident "g_cells")))) (p-expr (ident "functions")))))) ((cast ,cast ,o) ((expr->accu info) o)) ((assn-expr (p-expr (ident ,name)) ,op ,expr) (let ((info ((ast->info info) o))) (clone info #:text (append (.text info) ((ident->accu info) name))))) (_ (format (current-error-port) "SKIP: expr->accu=~s\n" o) barf info))))) (define (expr->base info) (lambda (o) (let ((info ((expr->accu info) o))) (clone info #:text (append (list (lambda (f g ta t d) (i386:push-accu))) (.text info) (list (lambda (f g ta t d) (append (i386:accu->base) (i386:pop-accu))))))))) (define (expr->accu* info) (lambda (o) (pmatch o ;;(stderr "expr->accu* o=~s\n" o) ;; g_cells[10].type ((d-sel (ident ,field) (array-ref (p-expr (fixed ,index)) (p-expr (ident ,array)))) (let* ((type (ident->type info array)) (fields (or (type->description info type) '())) (size (type->size info type)) (count (length fields)) (field-size 4) ;; FIXME:4, not fixed (offset (* field-size (1- (length (member field (reverse fields) (lambda (a b) (equal? a (cdr b)))))))) (index (cstring->number index)) (text (.text info))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:value->base index) (i386:base->accu) (if (> count 1) (i386:accu+accu) '()) (if (= count 3) (i386:accu+base) '()) (i386:accu-shl 2)))) ;; de-ref: g_cells, non: arena ;;((ident->base info) array) ((ident->base info) array) (list (lambda (f g ta t d) (append (i386:accu+base) (i386:accu+value offset)))))))) ;; g_cells[x].type ((d-sel (ident ,field) (array-ref (p-expr (ident ,index)) (p-expr (ident ,array)))) (let* ((type (ident->type info array)) (fields (or (type->description info type) '())) (size (type->size info type)) (count (length fields)) (field-size 4) ;; FIXME:4, not fixed (offset (* field-size (1- (length (member field (reverse fields) (lambda (a b) (equal? a (cdr b)))))))) (text (.text info))) (clone info #:text (append text ((ident->base info) index) (list (lambda (f g ta t d) (append (i386:base->accu) (if (> count 1) (i386:accu+accu) '()) (if (= count 3) (i386:accu+base) '()) (i386:accu-shl 2)))) ;; de-ref: g_cells, non: arena ;;((ident->base info) array) ((ident->base info) array) (list (lambda (f g ta t d) (append (i386:accu+base) (i386:accu+value offset)))))))) ;;((d-sel (ident "cdr") (p-expr (ident "scm_make_cell")))) ((d-sel (ident ,field) (p-expr (ident ,name))) (let* ((type (ident->type info name)) (fields (or (type->description info type) '())) (field-size 4) ;; FIXME (offset (* field-size (1- (length (member field (reverse fields) (lambda (a b) (equal? a (cdr b)))))))) (text (.text info))) (clone info #:text (append text ((ident->accu info) name) (list (lambda (f g ta t d) (i386:accu+value offset))))))) (_ (format (current-error-port) "SKIP: expr->accu*=~s\n" o) barf info) ))) (define (ident->constant name value) (cons name value)) (define (make-type name type size description) (cons name (list type size description))) (define (enum->type name fields) (make-type name 'enum 4 fields)) (define (struct->type name fields) (make-type name 'struct (* 4 (length fields)) fields)) ;; FIXME (define (decl->type o) (pmatch o ((fixed-type ,type) type) ((struct-ref (ident ,name)) (list "struct" name)) ((decl (decl-spec-list (type-spec (struct-ref (ident ,name)))));; "scm" (list "struct" name)) ;; FIXME ((typename ,name) name) (_ (stderr "SKIP: decl type=~s\n" o) barf o))) (define (expr->global o) (pmatch o ((p-expr (string ,string)) (string->global string)) (_ #f))) (define (initzer->global o) (pmatch o ((initzer ,initzer) (expr->global initzer)) (_ #f))) (define (byte->hex o) (string->number (string-drop o 2) 16)) (define (asm->hex o) (let ((prefix ".byte ")) (if (not (string-prefix? prefix o)) (begin (stderr "SKIP:~s\n" o)'()) (let ((s (string-drop o (string-length prefix)))) (map byte->hex (string-split s #\space)))))) (define (case->jump-info info) (define (jump n) (list (lambda (f g ta t d) (i386:Xjump n)))) (define (jump-nz n) (list (lambda (f g ta t d) (i386:Xjump-nz n)))) (define (statement->info info body-length) (lambda (o) (pmatch o ((break) (clone info #:text (append (.text info) (jump body-length) ))) (_ ((ast->info info) o))))) (lambda (o) (pmatch o ((case (p-expr (ident ,constant)) (compd-stmt (block-item-list . ,elements))) (lambda (body-length) (define (test->text value clause-length) (append (list (lambda (f g ta t d) (i386:accu-cmp-value value))) (jump-nz clause-length))) (let* ((value (assoc-ref (.constants info) constant)) (test-info (clone info #:text (append (.text info) (test->text value 0)))) (text-length (length (.text test-info))) (clause-info (let loop ((elements elements) (info test-info)) (if (null? elements) info (loop (cdr elements) ((statement->info info body-length) (car elements)))))) (clause-text (list-tail (.text clause-info) text-length)) (clause-length (length (text->list clause-text)))) (clone info #:text (append (.text info) (test->text value clause-length) clause-text) #:globals (.globals clause-info))))) ((case (p-expr (fixed ,value)) (compd-stmt (block-item-list . ,elements))) (lambda (body-length) (define (test->text value clause-length) (append (list (lambda (f g ta t d) (i386:accu-cmp-value value))) (jump-nz clause-length))) (let* ((value (cstring->number value)) (test-info (clone info #:text (append (.text info) (test->text value 0)))) (text-length (length (.text test-info))) (clause-info (let loop ((elements elements) (info test-info)) (if (null? elements) info (loop (cdr elements) ((statement->info info body-length) (car elements)))))) (clause-text (list-tail (.text clause-info) text-length)) (clause-length (length (text->list clause-text)))) (clone info #:text (append (.text info) (test->text value clause-length) clause-text) #:globals (.globals clause-info))))) ((case (neg (p-expr (fixed ,value))) ,statement) ((case->jump-info info) `(case (p-expr (fixed ,(string-append "-" value))) ,statement))) ((default (compd-stmt (block-item-list . ,elements))) (lambda (body-length) (let ((text-length (length (.text info)))) (let loop ((elements elements) (info info)) (if (null? elements) info (loop (cdr elements) ((statement->info info body-length) (car elements)))))))) ((case (p-expr (ident ,constant)) ,statement) ((case->jump-info info) `(case (p-expr (ident ,constant)) (compd-stmt (block-item-list ,statement))))) ((case (p-expr (fixed ,value)) ,statement) ((case->jump-info info) `(case (p-expr (fixed ,value)) (compd-stmt (block-item-list ,statement))))) ((default ,statement) ((case->jump-info info) `(default (compd-stmt (block-item-list ,statement))))) (_ (stderr "no case match: ~a\n" o) barf) ))) (define (test->jump->info info) (define (jump type . test) (lambda (o) (let* ((text (.text info)) (info (clone info #:text '())) (info ((ast->info info) o)) (jump-text (lambda (body-length) (list (lambda (f g ta t d) (type body-length)))))) (lambda (body-length) (clone info #:text (append text (.text info) (if (null? test) '() (car test)) (jump-text body-length))))))) (lambda (o) (pmatch o ;; unsigned ;; ((le ,a ,b) ((jump i386:Xjump-ncz) o)) ; ja ;; ((lt ,a ,b) ((jump i386:Xjump-nc) o)) ; jae ;; ((ge ,a ,b) ((jump i386:Xjump-ncz) o)) ;; ((gt ,a ,b) ((jump i386:Xjump-nc) o)) ((le ,a ,b) ((jump i386:Xjump-g) o)) ((lt ,a ,b) ((jump i386:Xjump-ge) o)) ((ge ,a ,b) ((jump i386:Xjump-g) o)) ((gt ,a ,b) ((jump i386:Xjump-ge) o)) ((ne ,a ,b) ((jump i386:Xjump-nz) o)) ((eq ,a ,b) ((jump i386:Xjump-nz) o)) ((not _) ((jump i386:Xjump-z) o)) ((and ,a ,b) (let* ((text (.text info)) (info (clone info #:text '())) (a-jump ((test->jump->info info) a)) (a-text (.text (a-jump 0))) (a-length (length (text->list a-text))) (b-jump ((test->jump->info info) b)) (b-text (.text (b-jump 0))) (b-length (length (text->list b-text)))) (lambda (body-length) (clone info #:text (append text (.text (a-jump (+ b-length body-length))) (.text (b-jump body-length))))))) ((or ,a ,b) (let* ((text (.text info)) (info (clone info #:text '())) (a-jump ((test->jump->info info) a)) (a-text (.text (a-jump 0))) (a-length (length (text->list a-text))) (jump-text (list (lambda (f g ta t d) (i386:Xjump 0)))) (jump-length (length (text->list jump-text))) (b-jump ((test->jump->info info) b)) (b-text (.text (b-jump 0))) (b-length (length (text->list b-text))) (jump-text (list (lambda (f g ta t d) (i386:Xjump b-length))))) (lambda (body-length) (clone info #:text (append text (.text (a-jump jump-length)) jump-text (.text (b-jump body-length))))))) ((array-ref . _) ((jump i386:jump-byte-z (list (lambda (f g ta t d) (i386:accu-zero?)))) o)) ((de-ref _) ((jump i386:jump-byte-z (list (lambda (f g ta t d) (i386:accu-zero?)))) o)) ((assn-expr (p-expr (ident ,name)) ,op ,expr) ((jump i386:Xjump-z (append ((ident->accu info) name) (list (lambda (f g ta t d) (i386:accu-zero?))))) o)) (_ ((jump i386:Xjump-z (list (lambda (f g ta t d) (i386:accu-zero?)))) o))))) (define (cstring->number s) (cond ((string-prefix? "0x" s) (string->number (string-drop s 2) 16)) ((string-prefix? "0" s) (string->number s 8)) (else (string->number s)))) (define (struct-field o) (pmatch o ((comp-decl (decl-spec-list (type-spec (enum-ref (ident ,type)))) (comp-declr-list (comp-declr (ident ,name)))) (cons type name)) ((comp-decl (decl-spec-list (type-spec (fixed-type ,type))) (comp-declr-list (comp-declr (ident ,name)))) (cons type name)) ((comp-decl (decl-spec-list (type-spec (typename ,type))) (comp-declr-list (comp-declr (ident ,name)))) (cons type name)) ((comp-decl (decl-spec-list (type-spec (fixed-type ,type))) (comp-declr-list (comp-declr (ftn-declr (scope (ptr-declr (pointer) (ident ,name))) (param-list (param-decl (decl-spec-list (type-spec (void))))))))) (cons type name)) ;; FIXME function / int ((comp-decl (decl-spec-list (type-spec (fixed-type ,type))) (comp-declr-list (comp-declr (ptr-declr (pointer) (ident ,name))))) (cons type name)) ;; FIXME: ptr/char (_ (stderr "struct-field: no match: ~s\n" o) barf))) (define (ast->type o) (pmatch o ((fixed-type ,type) type) ((struct-ref (ident ,type)) (list "struct" type)) (_ (stderr "SKIP: type=~s\n" o) "int"))) (define i386:type-alist '(("char" . (builtin 1 #f)) ("int" . (builtin 4 #f)))) (define (type->size info o) ;;(stderr "types=~s\n" (.types info)) ;;(stderr "type->size o=~s => ~s\n" o (cadr (assoc-ref (.types info) o))) (pmatch o ((decl-spec-list (type-spec (fixed-type ,type))) (type->size info type)) ((decl-spec-list (type-spec (fixed-type ,type)) (type-qual ,qual)) (type->size info type)) (_ (let ((type (assoc-ref (.types info) o))) (if type (cadr type) (begin (stderr "***TYPE NOT FOUND**: o=~s\n" o) barf 4)))))) (define (ident->decl info o) ;; (stderr "ident->decl o=~s\n" o) ;; (stderr " types=~s\n" (.types info)) ;; (stderr " local=~s\n" (assoc-ref (.locals info) o)) ;; (stderr " global=~s\n" (assoc-ref (.globals info) o)) (or (assoc-ref (.locals info) o) (assoc-ref (.globals info) o) (begin (stderr "NO IDENT: ~a\n" (assoc-ref (.functions info) o)) (assoc-ref (.functions info) o)))) (define (ident->type info o) (and=> (ident->decl info o) car)) (define (ident->pointer info o) (let ((local (assoc-ref (.locals info) o))) (if local (local:pointer local) (or (and=> (ident->decl info o) global:pointer) 0)))) (define (type->description info o) ;; (stderr "type->description =~s\n" o) ;; (stderr "types=~s\n" (.types info)) ;; (stderr "type->description o=~s ==> ~s\n" o (caddr (assoc-ref (.types info) o))) ;; (stderr " assoc ~a\n" (assoc-ref (.types info) o)) (pmatch o ((decl-spec-list (type-spec (fixed-type ,type))) (type->description info type)) ((decl-spec-list (type-spec (fixed-type ,type)) (type-qual ,qual)) (type->description info type)) (_ (caddr (assoc-ref (.types info) o))))) (define (local? o) ;; formals < 0, locals > 0 (positive? (local:id o))) (define (ast->info info) (lambda (o) (let ((globals (.globals info)) (locals (.locals info)) (constants (.constants info)) (text (.text info))) (define (add-local locals name type pointer) (let* ((id (1+ (length (filter local? (map cdr locals))))) (locals (cons (make-local name type pointer id) locals))) locals)) ;; (stderr "\n ast->info=~s\n" o) ;; (stderr " globals[~a=>~a]: ~a\n" (length globals) (length (append-map cdr globals)) (map (lambda (s) (if (string? s) (string-delete #\newline s))) (map car globals))) ;; (stderr " text=~a\n" text) ;; (stderr " info=~a\n" info) ;; (stderr " globals=~a\n" globals) (pmatch o (((trans-unit . _) . _) ((ast-list->info info) o)) ((trans-unit . ,elements) ((ast-list->info info) elements)) ((fctn-defn . _) ((function->info info) o)) ((comment . _) info) ((cpp-stmt (define (name ,name) (repl ,value))) info) ((cast (type-name (decl-spec-list (type-spec (void)))) _) info) ;; FIXME: expr-stmt wrapper? (trans-unit info) ((expr-stmt) info) ((assn-expr . ,assn-expr) ((ast->info info) `(expr-stmt ,o))) ((d-sel . ,d-sel) (let ((expr ((expr->accu info) `(d-sel ,@d-sel)))) expr)) ((compd-stmt (block-item-list . ,statements)) ((ast-list->info info) statements)) ((expr-stmt (fctn-call (p-expr (ident ,name)) (expr-list . ,expr-list))) (if (equal? name "asm") (let ((arg0 (cadr (cadar expr-list)))) ;; FIXME (clone info #:text (append text (list (lambda (f g ta t d) (asm->hex arg0)))))) (let* ((globals (append globals (filter-map expr->global expr-list))) (info (clone info #:globals globals)) (text-length (length text)) (args-info (let loop ((expressions (reverse expr-list)) (info info)) (if (null? expressions) info (loop (cdr expressions) ((expr->arg info) (car expressions)))))) (text (.text args-info)) (n (length expr-list))) (if (and (not (assoc-ref locals name)) (assoc-ref (.functions info) name)) (clone args-info #:text (append text (list (lambda (f g ta t d) (i386:call f g ta t d (+ t (function-offset name f)) n)))) #:globals globals) (let* ((empty (clone info #:text '())) (accu ((expr->accu empty) `(p-expr (ident ,name))))) (clone args-info #:text (append text (.text accu) (list (lambda (f g ta t d) (i386:call-accu f g ta t d n)))) #:globals globals)))))) ;;((expr-stmt (fctn-call (d-sel (ident "function") (array-ref (d-sel (ident "cdr") (array-ref (p-expr (ident "fn")) (p-expr (ident "g_cells")))) (p-expr (ident "g_functions")))) (expr-list)))) ((expr-stmt (fctn-call ,function (expr-list . ,expr-list))) (let* ((globals (append globals (filter-map expr->global expr-list))) (info (clone info #:globals globals)) (text-length (length text)) (args-info (let loop ((expressions (reverse expr-list)) (info info)) (if (null? expressions) info (loop (cdr expressions) ((expr->arg info) (car expressions)))))) (text (.text args-info)) (n (length expr-list)) (empty (clone info #:text '())) (accu ((expr->accu empty) function))) (clone info #:text (append text (.text accu) (list (lambda (f g ta t d) (i386:call-accu f g ta t d n)))) #:globals globals))) ((if ,test ,body) (let* ((text-length (length text)) (test-jump->info ((test->jump->info info) test)) (test+jump-info (test-jump->info 0)) (test-length (length (.text test+jump-info))) (body-info ((ast->info test+jump-info) body)) (text-body-info (.text body-info)) (body-text (list-tail text-body-info test-length)) (body-length (length (text->list body-text))) (text+test-text (.text (test-jump->info body-length))) (test-text (list-tail text+test-text text-length))) (clone info #:text (append text test-text body-text) #:globals (.globals body-info)))) ((if ,test ,then ,else) (let* ((text-length (length text)) (test-jump->info ((test->jump->info info) test)) (test+jump-info (test-jump->info 0)) (test-length (length (.text test+jump-info))) (then-info ((ast->info test+jump-info) then)) (text-then-info (.text then-info)) (then-text (list-tail text-then-info test-length)) (then-jump-text (list (lambda (f g ta t d) (i386:Xjump 0)))) (then-jump-length (length (text->list then-jump-text))) (then-length (+ (length (text->list then-text)) then-jump-length)) (then+jump-info (clone then-info #:text (append text-then-info then-jump-text))) (else-info ((ast->info then+jump-info) else)) (text-else-info (.text else-info)) (else-text (list-tail text-else-info (length (.text then+jump-info)))) (else-length (length (text->list else-text))) (text+test-text (.text (test-jump->info then-length))) (test-text (list-tail text+test-text text-length)) (then-jump-text (list (lambda (f g ta t d) (i386:Xjump else-length))))) (clone info #:text (append text test-text then-text then-jump-text else-text) #:globals (append (.globals then-info) (list-tail (.globals else-info) (length globals)))))) ((expr-stmt (cond-expr ,test ,then ,else)) (let* ((text-length (length text)) (test-jump->info ((test->jump->info info) test)) (test+jump-info (test-jump->info 0)) (test-length (length (.text test+jump-info))) (then-info ((ast->info test+jump-info) then)) (text-then-info (.text then-info)) (then-text (list-tail text-then-info test-length)) (then-length (length (text->list then-text))) (jump-text (list (lambda (f g ta t d) (i386:Xjump 0)))) (jump-length (length (text->list jump-text))) (test+then+jump-info (clone then-info #:text (append (.text then-info) jump-text))) (else-info ((ast->info test+then+jump-info) else)) (text-else-info (.text else-info)) (else-text (list-tail text-else-info (length (.text test+then+jump-info)))) (else-length (length (text->list else-text))) (text+test-text (.text (test-jump->info (+ then-length jump-length)))) (test-text (list-tail text+test-text text-length)) (jump-text (list (lambda (f g ta t d) (i386:Xjump else-length))))) (clone info #:text (append text test-text then-text jump-text else-text) #:globals (.globals else-info)))) ((switch ,expr (compd-stmt (block-item-list . ,cases))) (let* ((expr ((expr->accu info) expr)) (empty (clone info #:text '())) (case-infos (map (case->jump-info empty) cases)) (case-lengths (map (lambda (c-j) (length (text->list (.text (c-j 0))))) case-infos)) (cases-info (let loop ((cases cases) (info expr) (lengths case-lengths)) (if (null? cases) info (let ((c-j ((case->jump-info info) (car cases)))) (loop (cdr cases) (c-j (apply + (cdr lengths))) (cdr lengths))))))) cases-info)) ((for ,init ,test ,step ,body) (let* ((info (clone info #:text '())) ;; FIXME: goto in body... (info ((ast->info info) init)) (init-text (.text info)) (init-locals (.locals info)) (info (clone info #:text '())) (body-info ((ast->info info) body)) (body-text (.text body-info)) (body-length (length (text->list body-text))) (step-info ((ast->info info) `(expr-stmt ,step))) (step-text (.text step-info)) (step-length (length (text->list step-text))) (test-jump->info ((test->jump->info info) test)) (test+jump-info (test-jump->info 0)) (test-length (length (text->list (.text test+jump-info)))) (skip-body-text (list (lambda (f g ta t d) (i386:Xjump (+ body-length step-length))))) (jump-text (list (lambda (f g ta t d) (i386:Xjump (- (+ body-length step-length test-length)))))) (jump-length (length (text->list jump-text))) (test-text (.text (test-jump->info jump-length)))) (clone info #:text (append text init-text skip-body-text body-text step-text test-text jump-text) #:globals (append globals (list-tail (.globals body-info) (length globals))) #:locals locals))) ;; FIXME: support break statement (see switch/case) ((while ,test ,body) (let* ((skip-info (lambda (body-length) (clone info #:text (append text (list (lambda (f g ta t d) (i386:Xjump body-length))))))) (text (.text (skip-info 0))) (text-length (length text)) (body-info (lambda (body-length) ((ast->info (skip-info body-length)) body))) (body-text (list-tail (.text (body-info 0)) text-length)) (body-length (length (text->list body-text))) (body-info (body-info body-length)) (empty (clone info #:text '())) (test-jump->info ((test->jump->info empty) test)) (test+jump-info (test-jump->info 0)) (test-length (length (text->list (.text test+jump-info)))) (jump-text (list (lambda (f g ta t d) (i386:Xjump (- (+ body-length test-length)))))) (jump-length (length (text->list jump-text))) (test-text (.text (test-jump->info jump-length)))) (clone info #:text (append (.text body-info) test-text jump-text) #:globals (.globals body-info)))) ((do-while ,body ,test) (let* ((text-length (length text)) (body-info ((ast->info info) body)) (body-text (list-tail (.text body-info) text-length)) (body-length (length (text->list body-text))) (empty (clone info #:text '())) (test-jump->info ((test->jump->info empty) test)) (test+jump-info (test-jump->info 0)) (test-length (length (text->list (.text test+jump-info)))) (jump-text (list (lambda (f g ta t d) (i386:Xjump (- (+ body-length test-length)))))) (jump-length (length (text->list jump-text))) (test-text (.text (test-jump->info jump-length)))) (clone info #:text (append (.text body-info) test-text jump-text) #:globals (.globals body-info)))) ((labeled-stmt (ident ,label) ,statement) (let ((info (clone info #:text (append text (list label))))) ((ast->info info) statement))) ((goto (ident ,label)) (let* ((jump (lambda (n) (i386:XXjump n))) (offset (+ (length (jump 0)) (length (text->list text))))) (clone info #:text (append text (list (lambda (f g ta t d) (jump (- (label-offset (.function info) label f) offset)))))))) ;;; FIXME: only zero?! ((p-expr (ident ,name)) (clone info #:text (append text ((ident->accu info) name) (list (lambda (f g ta t d) (append (i386:accu-zero?))))))) ((p-expr (fixed ,value)) (let ((value (cstring->number value))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:value->accu value) (i386:accu-zero?)))))))) ((de-ref (p-expr (ident ,name))) (clone info #:text (append text ((ident->accu info) name) (list (lambda (f g ta t d) (append (i386:byte-mem->accu))))))) ((fctn-call . ,call) (let ((info ((ast->info info) `(expr-stmt ,o)))) (clone info #:text (append (.text info) (list (lambda (f g ta t d) (i386:accu-zero?))))))) ;; FIXME ;;((post-inc ,expr) ((ast->info info) `(expr-stmt ,o))) ((post-inc (p-expr (ident ,name))) (clone info #:text (append text ((ident->accu info) name) ((ident-add info) name 1) (list (lambda (f g ta t d) (append (i386:accu-zero?))))))) ((post-inc ,expr) ((ast->info info) `(expr-stmt ,o))) ((post-dec ,expr) ((ast->info info) `(expr-stmt ,o))) ((pre-inc ,expr) ((ast->info info) `(expr-stmt ,o))) ((pre-dec ,expr) ((ast->info info) `(expr-stmt ,o))) ;; i++ ((expr-stmt (post-inc (p-expr (ident ,name)))) (clone info #:text (append text ((ident-add info) name 1)))) ;; ++i ((expr-stmt (pre-inc (p-expr (ident ,name)))) (or (assoc-ref locals name) barf) (clone info #:text (append text ((ident-add info) name 1) ((ident->accu info) name) (list (lambda (f g ta t d) (append ;;(i386:local->accu (local:id (assoc-ref locals name))) (i386:accu-zero?))))))) ;; i-- ((expr-stmt (post-dec (p-expr (ident ,name)))) (or (assoc-ref locals name) barf) (clone info #:text (append text ((ident->accu info) name) ((ident-add info) name -1) (list (lambda (f g ta t d) (append ;;(i386:local-add (local:id (assoc-ref locals name)) -1) (i386:accu-zero?))))))) ;; --i ((expr-stmt (pre-dec (p-expr (ident ,name)))) (or (assoc-ref locals name) barf) (clone info #:text (append text ((ident-add info) name -1) ((ident->accu info) name) (list (lambda (f g ta t d) (append ;;(i386:local-add (local:id (assoc-ref locals name)) -1) ;;(i386:local->accu (local:id (assoc-ref locals name))) (i386:accu-zero?))))))) ((not ,expr) (let* ((test-info ((ast->info info) expr))) (clone info #:text (append (.text test-info) (list (lambda (f g ta t d) (append (i386:accu-not) (i386:accu-zero?))))) #:globals (.globals test-info)))) ((eq ,a ,b) (let* ((base ((expr->base info) a)) (empty (clone base #:text '())) (accu ((expr->accu empty) b))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) (.text accu) (list (lambda (f g ta t d) (i386:pop-base))) (list (lambda (f g ta t d) (i386:sub-base))))))) ((ge ,a ,b) (let* ((base ((expr->base info) a)) (empty (clone base #:text '())) (accu ((expr->accu empty) b))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) (.text accu) (list (lambda (f g ta t d) (i386:pop-base))) (list (lambda (f g ta t d) (i386:sub-base))))))) ((gt ,a ,b) (let* ((base ((expr->base info) a)) (empty (clone base #:text '())) (accu ((expr->accu empty) b))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) (.text accu) (list (lambda (f g ta t d) (i386:pop-base))) (list (lambda (f g ta t d) (i386:sub-base))))))) ((ne ,a ,b) (let* ((base ((expr->base info) a)) (empty (clone base #:text '())) (accu ((expr->accu empty) b))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) (.text accu) (list (lambda (f g ta t d) (i386:pop-base))) (list (lambda (f g ta t d) (append (i386:sub-base) (i386:xor-zf)))))))) ((le ,a ,b) (let* ((base ((expr->base info) a)) (empty (clone base #:text '())) (accu ((expr->accu empty) b))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) (.text accu) (list (lambda (f g ta t d) (i386:pop-base))) (list (lambda (f g ta t d) (i386:base-sub))))))) ((lt ,a ,b) (let* ((base ((expr->base info) a)) (empty (clone base #:text '())) (accu ((expr->accu empty) b))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) (.text accu) (list (lambda (f g ta t d) (i386:pop-base))) (list (lambda (f g ta t d) (i386:base-sub))))))) ;; HMM ((lshift . _) ((expr->accu info) o)) ((rshift . _) ((expr->accu info) o)) ;; TODO: byte dinges ((Xsub ,a ,b) (let* ((base ((expr->base info) a)) (empty (clone base #:text '())) (accu ((expr->accu empty) b))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) (.text accu) (list (lambda (f g ta t d) (i386:pop-base))) (list (lambda (f g ta t d) (i386:base-sub))))))) ((Xsub (de-ref (p-expr (ident ,a))) (de-ref (p-expr (ident ,b)))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:local->accu (local:id (assoc-ref locals a))) (i386:byte-mem->base) (i386:local->accu (local:id (assoc-ref locals b))) (i386:byte-mem->accu) (i386:byte-sub-base))))))) ;; g_cells[0] ((array-ref (p-expr (fixed ,index)) (p-expr (ident ,array))) (let* ((value (cstring->number value)) (type (ident->type info array)) (size (type->size info type))) (clone info #:text (append text ((ident->base info) array) (list (lambda (f g ta t d) (append (i386:value->accu (* size index)) (if (eq? size 1) (i386:byte-base-mem->accu) (i386:base-mem->accu))))))))) ;; g_cells[a] ((array-ref (p-expr (ident ,index)) (p-expr (ident ,array))) (let* ((type (ident->type info array)) (size (type->size info type))) (clone info #:text (append text ((ident->base info) index) (list (lambda (f g ta t d) (append (i386:base->accu) (if (< size 4) '() (append (i386:accu+accu) (if (= size 12) (i386:accu+base) '()) (i386:accu-shl 2)))))) ((ident->base info) array) (list (lambda (f g ta t d) (if (eq? size 1) (i386:byte-base-mem->accu) (i386:base-mem->accu)))))))) ((return ,expr) (let ((accu ((expr->accu info) expr))) (clone accu #:text (append (.text accu) (list (lambda (f g ta t d) (i386:ret))))))) ;; int i; ((decl (decl-spec-list (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ident ,name)))) (if (.function info) (clone info #:locals (add-local locals name type 0)) (clone info #:globals (append globals (list (ident->global name type 0 0)))))) ;; int i = 0; ((decl (decl-spec-list (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ident ,name) (initzer (p-expr (fixed ,value)))))) (let ((value (cstring->number value))) (if (.function info) (let* ((locals (add-local locals name type 0)) (info (clone info #:locals locals))) (clone info #:text (append text ((value->ident info) name value)))) (clone info #:globals (append globals (list (ident->global name type 0 value))))))) ;; char c = 'A'; ((decl (decl-spec-list (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ident ,name) (initzer (p-expr (char ,value)))))) (if (not (.function info)) decl-barf0) (let* ((locals (add-local locals name type 0)) (info (clone info #:locals locals)) (value (char->integer (car (string->list value))))) (clone info #:text (append text ((value->ident info) name value))))) ;; int i = -1; ((decl (decl-spec-list (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ident ,name) (initzer (neg (p-expr (fixed ,value))))))) (let ((value (- (cstring->number value)))) (if (.function info) (let* ((locals (add-local locals name type 0)) (info (clone info #:locals locals))) (clone info #:text (append text ((value->ident info) name value)))) (clone info #:globals (append globals (list (ident->global name type 0 value))))))) ;; int i = argc; ((decl (decl-spec-list (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ident ,name) (initzer (p-expr (ident ,local)))))) (if (not (.function info)) decl-barf2) (let* ((locals (add-local locals name type 0)) (info (clone info #:locals locals))) (clone info #:text (append text ((ident->accu info) local) ((accu->ident info) name))))) ;; char *p = "t.c"; ;;(decl (decl-spec-list (type-spec (fixed-type "char"))) (init-declr-list (init-declr (ptr-declr (pointer) (ident "p")) (initzer (p-expr (string "t.c\n")))))) ((decl (decl-spec-list (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ptr-declr (pointer) (ident ,name)) (initzer (p-expr (string ,string)))))) (when (not (.function info)) (stderr "o=~s\n" o) decl-barf3) (let* ((locals (add-local locals name type 1)) (globals (append globals (list (string->global string)))) (info (clone info #:locals locals #:globals globals))) (clone info #:text (append text (list (lambda (f g ta t d) (append (i386:global->accu (+ (data-offset (add-s:-prefix string) g) d))))) ((accu->ident info) name))))) ;; char *p = 0; ((decl (decl-spec-list (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ptr-declr (pointer) (ident ,name)) (initzer (p-expr (fixed ,value)))))) (let ((value (cstring->number value))) (if (.function info) (let* ((locals (add-local locals name type 1)) (info (clone info #:locals locals))) (clone info #:text (append text (list (lambda (f g ta t d) (i386:value->accu value))) ((accu->ident info) name)))) (clone info #:globals (append globals (list (ident->global name type 0 value))))))) ;; char arena[20000]; ((decl (decl-spec-list (type-spec ,type)) (init-declr-list (init-declr (array-of (ident ,name) (p-expr (fixed ,count)))))) (let ((type (ast->type type))) (if (.function info) TODO:decl-array (let* ((globals (.globals info)) (count (cstring->number count)) (size (type->size info type)) ;;;;(array (make-global name type -1 (string->list (make-string (* count size) #\nul)))) (array (make-global name type -1 (string->list (make-string (* count size) #\nul)))) (globals (append globals (list array)))) (clone info #:globals globals))))) ;;struct scm *g_cells = (struct scm*)arena; ((decl (decl-spec-list (type-spec (struct-ref (ident ,type)))) (init-declr-list (init-declr (ptr-declr (pointer) (ident ,name)) (initzer (cast (type-name (decl-spec-list (type-spec (struct-ref (ident ,=type)))) (abs-declr (pointer))) (p-expr (ident ,value))))))) ;;(stderr "0TYPE: ~s\n" type) (if (.function info) (let* ((locals (add-local locals name type 1)) (info (clone info #:locals locals))) (clone info #:text (append text ((ident->accu info) name) ((accu->ident info) value)))) ;; FIXME: deref? (let* ((globals (append globals (list (ident->global name type 1 0)))) (info (clone info #:globals globals))) (clone info #:text (append text ((ident->accu info) name) ((accu->ident info) value)))))) ;; FIXME: deref? ;; SCM tmp; ((decl (decl-spec-list (type-spec (typename ,type))) (init-declr-list (init-declr (ident ,name)))) ;;(stderr "1TYPE: ~s\n" type) (if (.function info) (clone info #:locals (add-local locals name type 0)) (clone info #:globals (append globals (list (ident->global name type 0 0)))))) ;; SCM g_stack = 0; ((decl (decl-spec-list (type-spec (typename ,type))) (init-declr-list (init-declr (ident ,name) (initzer (p-expr (fixed ,value)))))) ;;(stderr "2TYPE: ~s\n" type) (let ((value (cstring->number value))) (if (.function info) (let* ((locals (add-local locals name type 0)) (info (clone info #:locals locals))) (clone info #:text (append text ((value->ident info) name value)))) (let ((globals (append globals (list (ident->global name type 0 value))))) (clone info #:globals globals))))) ;; SCM g_stack = 0; // comment ((decl (decl-spec-list (type-spec (typename ,type))) (init-declr-list (init-declr (ident _) (initzer (p-expr (fixed _))))) (comment _)) ((ast->info info) (list-head o (- (length o) 1)))) ;; SCM i = argc; ((decl (decl-spec-list (type-spec (typename ,type))) (init-declr-list (init-declr (ident ,name) (initzer (p-expr (ident ,local)))))) ;;(stderr "3TYPE: ~s\n" type) (if (.function info) (let* ((locals (add-local locals name type 0)) (info (clone info #:locals locals))) (clone info #:text (append text ((ident->accu info) local) ((accu->ident info) name)))) (let* ((globals (append globals (list (ident->global name type 0 0)))) (info (clone info #:globals globals))) (clone info #:text (append text ((ident->accu info) local) ((accu->ident info) name)))))) ;; int (*function) (void) = g_functions[g_cells[fn].cdr].function; ((decl (decl-spec-list (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ftn-declr (scope (ptr-declr (pointer) (ident ,name))) (param-list . ,param-list)) (initzer ,initzer)))) (let* ((locals (add-local locals name type 1)) (info (clone info #:locals locals)) (empty (clone info #:text '())) (accu ((expr->accu empty) initzer))) (clone info #:text (append text (.text accu) ((accu->ident info) name) (list (lambda (f g ta t d) (append ;;(i386:value->base t) ;;(i386:accu+base) (i386:value->base ta) (i386:accu+base))))) #:locals locals))) ;; char *p = (char*)g_cells; ((decl (decl-spec-list (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ptr-declr (pointer) (ident ,name)) (initzer (cast (type-name (decl-spec-list (type-spec (fixed-type ,=type))) (abs-declr (pointer))) (p-expr (ident ,value))))))) ;;(stderr "6TYPE: ~s\n" type) (if (.function info) (let* ((locals (add-local locals name type 1)) (info (clone info #:locals locals))) (clone info #:text (append text ((ident->accu info) value) ((accu->ident info) name)))) (let* ((globals (append globals (list (ident->global name type 1 0)))) (here (data-offset name globals)) (there (data-offset value globals))) (clone info #:globals globals #:init (append (.init info) (list (lambda (functions globals ta t d data) (append (list-head data here) ;;; FIXME: type ;;; char *x = arena; (int->bv32 (+ d (data-offset value globals))) ;;; char *y = x; ;;;(list-head (list-tail data there) 4) (list-tail data (+ here 4)))))))))) ;; char *p = g_cells; ((decl (decl-spec-list (type-spec ,type)) (init-declr-list (init-declr (ptr-declr (pointer) (ident ,name)) (initzer (p-expr (ident ,value)))))) ;;(stderr "7TYPE: ~s\n" type) (let ((type (decl->type type))) ;;(stderr "0DECL: ~s\n" type) (if (.function info) (let* ((locals (add-local locals name type 1)) (info (clone info #:locals locals))) (clone info #:text (append text ((ident->accu info) value) ((accu->ident info) name)))) (let* ((globals (append globals (list (ident->global name type 1 0)))) (here (data-offset name globals))) (clone info #:globals globals #:init (append (.init info) (list (lambda (functions globals ta t d data) (append (list-head data here) ;;; FIXME: type ;;; char *x = arena;p (int->bv32 (+ d (data-offset value globals))) (list-tail data (+ here 4))))))))))) ;; enum ((decl (decl-spec-list (type-spec (enum-def (ident ,name) (enum-def-list . ,fields))))) (let ((type (enum->type name fields)) (constants (map ident->constant (map cadadr fields) (iota (length fields))))) (clone info #:types (append (.types info) (list type)) #:constants (append constants (.constants info))))) ;; struct ((decl (decl-spec-list (type-spec (struct-def (ident ,name) (field-list . ,fields))))) (let* ((type (struct->type (list "struct" name) (map struct-field fields)))) ;;(stderr "type: ~a\n" type) (clone info #:types (append (.types info) (list type))))) ;; *p++ = b; ((expr-stmt (assn-expr (de-ref (post-inc (p-expr (ident ,name)))) (op ,op) ,b)) (when (not (equal? op "=")) (stderr "OOOPS0.0: op=~s\n" op) barf) (let* ((empty (clone info #:text '())) (base ((expr->base empty) b))) (clone info #:text (append text (.text base) ((base->ident-address info) name) ((ident-add info) name 1))))) ;; *p-- = b; ((expr-stmt (assn-expr (de-ref (post-dec (p-expr (ident ,name)))) (op ,op) ,b)) (when (not (equal? op "=")) (stderr "OOOPS0.0: op=~s\n" op) barf) (let* ((empty (clone info #:text '())) (base ((expr->base empty) b))) (clone info #:text (append text (.text base) ((base->ident-address info) name) ((ident-add info) name -1))))) ;; CAR (x) = 0 ;; TYPE (x) = PAIR; ((expr-stmt (assn-expr (d-sel (ident ,field) . ,d-sel) (op ,op) ,b)) (when (not (equal? op "=")) (stderr "OOOPS0: op=~s\n" op) barf) (let* ((empty (clone info #:text '())) (expr ((expr->accu* empty) `(d-sel (ident ,field) ,@d-sel))) ;; <-OFFSET (base ((expr->base empty) b)) (type (list "struct" "scm")) ;; FIXME (fields (type->description info type)) (size (type->size info type)) (field-size 4) ;; FIXME:4, not fixed (offset (* field-size (1- (length (member field (reverse fields) (lambda (a b) (equal? a (cdr b)))))))) ) (clone info #:text (append text (.text expr) (.text base) (list (lambda (f g ta t d) ;;(i386:byte-base->accu-ref) ;; FIXME: size (i386:base->accu-address) )))))) ;; i = 0; ;; c = f (); ;; i = i + 48; ;; p = g_cell; ((expr-stmt (assn-expr (p-expr (ident ,name)) (op ,op) ,b)) (when (and (not (equal? op "=")) (not (equal? op "+=")) (not (equal? op "-="))) (stderr "OOOPS1: op=~s\n" op) barf) (let* ((empty (clone info #:text '())) (base ((expr->base empty) b))) (clone info #:text (append text (.text base) (if (equal? op "=") '() (append ((ident->accu info) name) (list (lambda (f g ta t d) (append (if (equal? op "+=") (i386:accu+base) (i386:accu-base)) (i386:accu->base)))))) ;;assign: ((base->ident info) name))))) ;; *p = 0; ((expr-stmt (assn-expr (de-ref (p-expr (ident ,array))) (op ,op) ,b)) (when (not (equal? op "=")) (stderr "OOOPS2: op=~s\n" op) barf) (let* ((empty (clone info #:text '())) (base ((expr->base empty) b))) (clone info #:text (append text (.text base) ;;assign: ((base->ident-address info) array))))) ;; g_cells[0] = 65; ((expr-stmt (assn-expr (array-ref (p-expr (fixed ,index)) (p-expr (ident ,array))) (op ,op) ,b)) (when (not (equal? op "=")) (stderr "OOOPS3: op=~s\n" op) barf) (let* ((index (cstring->number index)) (empty (clone info #:text '())) (base ((expr->base empty) b)) (type (ident->type info array)) (size (type->size info type)) (ptr (ident->pointer info array))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) (list (lambda (f g ta t d) (append (i386:value->base index) (i386:base->accu) (if (eq? size 1) '() (append (if (> size 4) (i386:accu+accu) '()) (if (> size 8) (i386:accu+base) '()) (i386:accu-shl 2)))))) ((ident->base info) array) (list (lambda (f g ta t d) (i386:accu+base))) (list (lambda (f g ta t d) (i386:pop-base))) (if (eq? size 1) (list (lambda (f g ta t d) (i386:byte-base->accu-address))) (append (list (lambda (f g ta t d) (i386:base-address->accu-address))) (if (> size 4) (list (lambda (f g ta t d) (append (i386:accu+n 4) (i386:base+n 4) (i386:base-address->accu-address)))) '()) (if (> size 8) (list (lambda (f g ta t d) (append (i386:accu+n 4) (i386:base+n 4) (i386:base-address->accu-address)))) '()))))))) ;; g_cells[i] = c; ((expr-stmt (assn-expr (array-ref (p-expr (ident ,index)) (p-expr (ident ,array))) (op ,op) ,b)) ;;(stderr "pointer_cells4[]: ~s\n" array) (when (not (equal? op "=")) (stderr "OOOPS4: op=~s\n" op) barf) (let* ((empty (clone info #:text '())) (base ((expr->base empty) b)) (type (ident->type info array)) (size (type->size info type)) (ptr (ident->pointer info array))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) ((ident->base info) index) (list (lambda (f g ta t d) (append (i386:base->accu) (if (eq? size 1) '() (append (if (> size 4) (i386:accu+accu) '()) (if (> size 8) (i386:accu+base) '()) (i386:accu-shl 2)))))) ((ident->base info) array) (list (lambda (f g ta t d) (i386:accu+base))) (list (lambda (f g ta t d) (i386:pop-base))) (if (eq? size 1) (list (lambda (f g ta t d) (i386:byte-base->accu-address))) (append (list (lambda (f g ta t d) (i386:base-address->accu-address))) (if (> size 4) (list (lambda (f g ta t d) (append (i386:accu+n 4) (i386:base+n 4) (i386:base-address->accu-address)))) '()) (if (> size 8) (list (lambda (f g ta t d) (append (i386:accu+n 4) (i386:base+n 4) (i386:base-address->accu-address)))) '()))))))) ;; g_functions[g_function++] = g_foo; ((expr-stmt (assn-expr (array-ref (post-inc (p-expr (ident ,index))) (p-expr (ident ,array))) (op ,op) ,b)) (when (not (equal? op "=")) (stderr "OOOPS5: op=~s\n" op) barf) (let* ((empty (clone info #:text '())) (base ((expr->base empty) b)) (type (ident->type info array)) (size (type->size info type)) (ptr (ident->pointer info array))) (clone info #:text (append text (.text base) (list (lambda (f g ta t d) (i386:push-base))) ((ident->base info) index) (list (lambda (f g ta t d) (append (i386:base->accu) (if (eq? size 1) '() (append (if (> size 4) (i386:accu+accu) '()) (if (> size 8) (i386:accu+base) '()) (i386:accu-shl 2)))))) ((ident->base info) array) (list (lambda (f g ta t d) (i386:accu+base))) (list (lambda (f g ta t d) (i386:pop-base))) (if (eq? size 1) (list (lambda (f g ta t d) (i386:byte-base->accu-address))) (append (list (lambda (f g ta t d) (i386:base-address->accu-address))) (if (> size 4) (list (lambda (f g ta t d) (append (i386:accu+n 4) (i386:base+n 4) (i386:base-address->accu-address)))) '()) (if (> size 8) (list (lambda (f g ta t d) (append (i386:accu+n 4) (i386:base+n 4) (i386:base-address->accu-address)))) '()))) ((ident-add info) index 1))))) ;; DECL ;; ;; struct f = {...}; ((decl (decl-spec-list (type-spec ,type)) (init-declr-list (init-declr (ident ,name) (initzer (initzer-list . ,initzers))))) (let* ((type (decl->type type)) ;;(foo (stderr "1DECL: ~s\n" type)) (fields (type->description info type)) (size (type->size info type)) (field-size 4)) ;; FIXME:4, not fixed ;;(stderr "7TYPE: ~s\n" type) (if (.function info) (let* ((globals (append globals (filter-map initzer->global initzers))) (locals (let loop ((fields (cdr fields)) (locals locals)) (if (null? fields) locals (loop (cdr fields) (add-local locals "foobar" "int" 0))))) (locals (add-local locals name type -1)) (info (clone info #:locals locals #:globals globals)) (empty (clone info #:text '()))) (let loop ((fields (iota (length fields))) (initzers initzers) (info info)) (if (null? fields) info (let ((offset (* field-size (car fields))) (initzer (car initzers))) (loop (cdr fields) (cdr initzers) (clone info #:text (append (.text info) ((ident->accu info) name) (list (lambda (f g ta t d) (append (i386:accu->base)))) (.text ((expr->accu empty) initzer)) (list (lambda (f g ta t d) (i386:accu->base-address+n offset)))))))))) (let* ((globals (append globals (filter-map initzer->global initzers))) (global (make-global name type -1 (string->list (make-string size #\nul)))) (globals (append globals (list global))) (here (data-offset name globals)) (info (clone info #:globals globals)) (field-size 4)) (let loop ((fields (iota (length fields))) (initzers initzers) (info info)) (if (null? fields) info (let ((offset (* field-size (car fields))) (initzer (car initzers))) (loop (cdr fields) (cdr initzers) (clone info #:init (append (.init info) (list (lambda (functions globals ta t d data) (append (list-head data (+ here offset)) (initzer->data info functions globals ta t d (car initzers)) (list-tail data (+ here offset field-size))))))))))))))) ;;char cc = g_cells[c].cdr; ==> generic? ((decl (decl-spec-list (type-spec ,type)) (init-declr-list (init-declr (ident ,name) (initzer ,initzer)))) (let ((type (decl->type type))) (if (.function info) (let* ((locals (add-local locals name type 0)) (info (clone info #:locals locals))) (clone info #:text (append (.text ((expr->accu info) initzer)) ((accu->ident info) name)))) (let* ((globals (append globals (list (ident->global name type 1 0)))) (here (data-offset name globals))) (clone info #:globals globals #:init (append (.init info) (list (lambda (functions globals ta t d data) (append (list-head data here) (initzer->data info functions globals ta t d initzer) (list-tail data (+ here 4))))))))))) ((decl (decl-spec-list (type-spec (typename ,type))) (init-declr-list (init-declr (ftn-declr (ident ,name) (param-list . ,param-list))))) info) ((decl (decl-spec-list (type-spec (typename ,type))) (init-declr-list (init-declr (ftn-declr (ident ,name) (param-list . ,param-list)))) (comment ,comment)) info) ((decl (decl-spec-list (stor-spec (typedef)) (type-spec (fixed-type ,type))) (init-declr-list (init-declr (ident ,name)))) (let ((types (.types info))) (clone info #:types (cons (cons name (assoc-ref types type)) types)))) ((decl (decl-spec-list (stor-spec (typedef)) ,type) ,name) (format (current-error-port) "SKIP: typedef=~s\n" o) info) ((decl (@ ,at)) (format (current-error-port) "SKIP: at=~s\n" o) info) ((decl . _) (format (current-error-port) "SKIP: decl statement=~s\n" o) barf info) (_ (format (current-error-port) "SKIP: statement=~s\n" o) barf info))))) (define (initzer->data info functions globals ta t d o) (pmatch o ((initzer (p-expr (fixed ,value))) (int->bv32 (cstring->number value))) ((initzer (neg (p-expr (fixed ,value)))) (int->bv32 (- (cstring->number value)))) ((initzer (ref-to (p-expr (ident ,name)))) ;;(stderr "INITZER[~a] => 0x~a\n" o (dec->hex (+ ta (function-offset name functions)))) (int->bv32 (+ ta (function-offset name functions)))) ((initzer (p-expr (ident ,name))) (let ((value (assoc-ref (.constants info) name))) (int->bv32 value))) ((initzer (p-expr (string ,string))) (int->bv32 (+ (data-offset (add-s:-prefix string) globals) d))) (_ (stderr "initzer->data:SKIP: ~s\n" o) barf (int->bv32 0)))) (define (info->exe info) (display "dumping elf\n" (current-error-port)) (map write-any (make-elf (.functions info) (.globals info) (.init info)))) (define (.formals o) (pmatch o ((fctn-defn _ (ftn-declr _ ,formals) _) formals) ((fctn-defn _ (ptr-declr (pointer) (ftn-declr _ ,formals)) _) formals) (_ (format (current-error-port) ".formals: no match: ~a\n" o) barf))) (define (formal->text n) (lambda (o i) ;;(i386:formal i n) '() )) (define (formals->text o) (pmatch o ((param-list . ,formals) (let ((n (length formals))) (list (lambda (f g ta t d) (append (i386:function-preamble) (append-map (formal->text n) formals (iota n)) (i386:function-locals)))))) (_ (format (current-error-port) "formals->text: no match: ~a\n" o) barf))) (define (formal:ptr o) (pmatch o ((param-decl (decl-spec-list . ,decl) (param-declr (ptr-declr (pointer) . _))) 1) ((param-decl (decl-spec-list . ,decl) (param-declr (ident ,name))) 0) (_ (stderr "formal:ptr[~a] => 0\n" o) 0))) (define (formals->locals o) (pmatch o ((param-list . ,formals) (let ((n (length formals))) (map make-local (map .name formals) (map .type formals) (map formal:ptr formals) (iota n -2 -1)))) (_ (format (current-error-port) "formals->info: no match: ~a\n" o) barf))) (define (function->info info) (lambda (o) ;;(stderr "\n") ;;(stderr "formals=~a\n" (.formals o)) (let* ((name (.name o)) (text (formals->text (.formals o))) (locals (formals->locals (.formals o)))) (format (current-error-port) "compiling ~a\n" name) ;;(stderr "locals=~a\n" locals) (let loop ((statements (.statements o)) (info (clone info #:locals locals #:function (.name o) #:text text))) (if (null? statements) (clone info #:function #f #:functions (append (.functions info) (list (cons name (.text info))))) (let* ((statement (car statements))) (loop (cdr statements) ((ast->info info) (car statements))))))))) (define (ast-list->info info) (lambda (elements) (let loop ((elements elements) (info info)) (if (null? elements) info (loop (cdr elements) ((ast->info info) (car elements))))))) (define (compile) (let* ((ast (mescc)) (info (make #:functions i386:libc #:types i386:type-alist)) (ast (append libc ast)) (info ((ast->info info) ast)) (info ((ast->info info) _start))) (info->exe info)))