;;; GNU Mes --- Maxwell Equations of Software ;;; Copyright © 2016,2017,2018,2019,2020,2021 Jan (janneke) Nieuwenhuizen ;;; Copyright © 2023 Andrius Štikonas ;;; Copyright © 2023 Ekaitz Zarraga ;;; Copyright © 2021 W. J. van der Laan ;;; ;;; 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 . ;;; Commentary: ;;; Code: (define-module (mescc compile) #:use-module (srfi srfi-1) #:use-module (srfi srfi-9 gnu) #:use-module (srfi srfi-26) #:use-module (system base pmatch) #:use-module (ice-9 optargs) #:use-module (ice-9 pretty-print) #:use-module (nyacc lang c99 pprint) #:use-module (mes guile) #:use-module (mes misc) #:use-module (mescc preprocess) #:use-module (mescc info) #:use-module (mescc as) #:use-module (mescc i386 as) #:use-module (mescc M1) #:export (c99-ast->info c99-input->info c99-input->object)) (define mes? (pair? (current-module))) (define mes-or-reproducible? #t) (define (cc-amd? info) #f) ; use AMD calling convention? ;; (define %reduced-register-count #f) ; use all registers? (define %reduced-register-count 2) ; use reduced instruction set (define (max-registers info) (if %reduced-register-count %reduced-register-count (length (append (.registers info) (.allocated info))))) (define* (c99-input->info info #:key (prefix "") (defines '()) (includes '()) (arch "") verbose?) (let ((ast (c99-input->ast #:prefix prefix #:defines defines #:includes includes #:arch arch #:verbose? verbose?))) (c99-ast->info info ast #:verbose? verbose?))) (define* (c99-ast->info info o #:key verbose?) (when verbose? (format (current-error-port) "compiling: input\n") (set! mescc:trace mescc:trace-verbose)) (let ((info (ast->info o info))) (clean-info info))) (define (clean-info o) (make #:functions (filter (compose pair? function:text cdr) (.functions o)) #:globals (.globals o) #:types (.types o))) (define (ident->constant name value) (cons name value)) (define (enum->type-entry name fields) (cons `(tag ,name) (make-type 'enum 4 fields))) (define (struct->type-entry info name fields) (let ((size (apply + (map (compose (cut ->size <> info) cdr) fields)))) (cons `(tag ,name) (make-type 'struct size fields)))) (define (union->type-entry info name fields) (let ((size (apply max (map (compose (cut ->size <> info) cdr) fields)))) (cons `(tag ,name) (make-type 'union size fields)))) (define (signed? o) (let ((type (->type o))) (cond ((type? type) (eq? (type:type type) 'signed)) (else #f)))) (define (unsigned? o) (let ((type (->type o))) (cond ((type? type) (eq? (type:type type) 'unsigned)) (else #t)))) (define (->size o info) (cond ((and (type? o) (eq? (type:type o) 'union)) (apply max (map (compose (cut ->size <> info) cdr) (struct->fields o)))) ((type? o) (type:size o)) ((pointer? o) (->size (get-type "*" info) info)) ((c-array? o) (* (c-array:count o) ((compose (cut ->size <> info) c-array:type) o))) ((local? o) ((compose (cut ->size <> info) local:type) o)) ((global? o) ((compose (cut ->size <> info) global:type) o)) ((bit-field? o) ((compose (cut ->size <> info) bit-field:type) o)) ((and (pair? o) (pair? (car o)) (bit-field? (cdar o))) ((compose (cut ->size <> info) cdar) o)) ((string? o) (->size (get-type o info) info)) (else (error "->size>: not a :" o)))) (define (ast->type o info) (define (type-helper o info) (if (getenv "MESC_DEBUG") (format (current-error-port) "type-helper: ~s\n" o)) (pmatch o (,t (guard (type? t)) t) (,p (guard (pointer? p)) p) (,a (guard (c-array? a)) a) (,b (guard (bit-field? b)) b) ((char ,value) (get-type "char" info)) ((enum-ref . _) (get-type "default" info)) ((fixed ,value) (let ((type (cond ((string-suffix? "ULL"value) "unsigned long long") ((string-suffix? "UL" value) "unsigned long") ((string-suffix? "U" value) "unsigned") ((string-suffix? "LL" value) "long long") ((string-suffix? "L" value) "long") (else "default")))) (get-type type info))) ((float ,float) (get-type "float" info)) ((void) (get-type "void" info)) ((ident ,name) (ident->type info name)) ((tag ,name) (or (get-type o info) o)) (,name (guard (string? name)) (let ((type (get-type name info))) (ast->type type info))) ((type-name (decl-spec-list ,type) (abs-declr (pointer . ,pointer))) (let ((rank (pointer->rank `(pointer ,@pointer))) (type (ast->type type info))) (rank+= type rank))) ((type-name ,type) (ast->type type info)) ((type-spec ,type) (ast->type type info)) ((sizeof-expr ,expr) (get-type "unsigned" info)) ((sizeof-type ,type) (get-type "unsigned" info)) ((string ,string) (make-c-array (get-type "char" info) (1+ (string-length string)))) ((decl-spec-list (type-spec ,type)) (ast->type type info)) ((fctn-call (p-expr (ident ,name)) . _) (or (and=> (assoc-ref (.functions info) name) function:type) (get-type "default" info))) ((fctn-call (de-ref (p-expr (ident ,name))) . _) (or (and=> (assoc-ref (.functions info) name) function:type) (get-type "default" info))) ((fixed-type ,type) (ast->type type info)) ((float-type ,type) (ast->type type info)) ((type-spec ,type) (ast->type type info)) ((typename ,type) (ast->type type info)) ((array-ref ,index ,array) (rank-- (ast->type array info))) ((de-ref ,expr) (rank-- (ast->type expr info))) ((ref-to ,expr) (rank++ (ast->type expr info))) ((p-expr ,expr) (ast->type expr info)) ((pre-inc ,expr) (ast->type expr info)) ((post-inc ,expr) (ast->type expr info)) ((struct-ref (ident ,type)) (or (get-type type info) (let ((struct (if (pair? type) type `(tag ,type)))) (ast->type struct info)))) ((union-ref (ident ,type)) (or (get-type type info) (let ((struct (if (pair? type) type `(tag ,type)))) (ast->type struct info)))) ((struct-def (ident ,name) . _) (ast->type `(tag ,name) info)) ((union-def (ident ,name) . _) (ast->type `(tag ,name) info)) ((struct-def (field-list . ,fields)) (let ((fields (append-map (struct-field info) fields))) (make-type 'struct (apply + (map (cut field:size <> info) fields)) fields))) ((union-def (field-list . ,fields)) (let ((fields (append-map (struct-field info) fields))) (make-type 'union (apply + (map (cut field:size <> info) fields)) fields))) ((enum-def (enum-def-list . ,fields)) (get-type "default" info)) ((d-sel (ident ,field) ,struct) (let ((type0 (ast->type struct info))) (ast->type (field-type info type0 field) info))) ((i-sel (ident ,field) ,struct) (let ((type0 (ast->type (rank-- (ast->type struct info)) info))) (ast->type (field-type info type0 field) info))) ;; arithmetic ((pre-inc ,a) (ast->type a info)) ((pre-dec ,a) (ast->type a info)) ((post-inc ,a) (ast->type a info)) ((post-dec ,a) (ast->type a info)) ((add ,a ,b) (ast->type a info)) ((sub ,a ,b) (ast->type a info)) ((bitwise-and ,a ,b) (ast->type a info)) ((bitwise-not ,a) (ast->type a info)) ((bitwise-or ,a ,b) (ast->type a info)) ((bitwise-xor ,a ,b) (ast->type a info)) ((lshift ,a ,b) (ast->type a info)) ((rshift ,a ,b) (ast->type a info)) ((div ,a ,b) (ast->type a info)) ((mod ,a ,b) (ast->type a info)) ((mul ,a ,b) (ast->type a info)) ((not ,a) (ast->type a info)) ((pos ,a) (ast->type a info)) ((neg ,a) (ast->type a info)) ((eq ,a ,b) (ast->type a info)) ((ge ,a ,b) (ast->type a info)) ((gt ,a ,b) (ast->type a info)) ((ne ,a ,b) (ast->type a info)) ((le ,a ,b) (ast->type a info)) ((lt ,a ,b) (ast->type a info)) ;; logical ((or ,a ,b) (ast->type a info)) ((and ,a ,b) (ast->type a info)) ((cast (type-name ,type) ,expr) (ast->type type info)) ((cast (type-name ,type (abs-declr ,pointer)) ,expr) (let ((rank (pointer->rank pointer))) (rank+= (ast->type type info) rank))) ((decl-spec-list (type-spec ,type)) (ast->type type info)) ;; ;; `typedef int size; void foo (unsigned size u) ((decl-spec-list (type-spec ,type) (type-spec ,type2)) (ast->type type info)) ((assn-expr ,a ,op ,b) (ast->type a info)) ((cond-expr _ ,a ,b) (ast->type a info)) (_ (get-type o info)))) (let ((type (type-helper o info))) (cond ((or (type? type) (pointer? type) type (c-array? type)) type) ((and (equal? type o) (pair? type) (eq? (car type) 'tag)) o) ((equal? type o) (error "ast->type: not supported: " o)) (else (ast->type type info))))) (define (ast->basic-type o info) (let ((type (->type (ast->type o info)))) (cond ((type? type) type) ((equal? type o) o) (else (ast->type type info))))) (define (get-type o info) (let ((t (assoc-ref (.types info) o))) (pmatch t ((typedef ,next) (or (get-type next info) o)) (_ t)))) (define (ast-type->size info o) (let ((type (->type (ast->type o info)))) (cond ((type? type) (type:size type)) (else (format (current-error-port) "error: ast-type->size: ~s => ~s\n" o type) 4)))) (define (field:name o) (pmatch o ((struct (,name ,type ,size ,pointer) . ,rest) name) ((union (,name ,type ,size ,pointer) . ,rest) name) ((,name . ,type) name) (_ (error "field:name not supported:" o)))) (define (field:pointer o) (pmatch o ((struct (,name ,type ,size ,pointer) . ,rest) pointer) ((union (,name ,type ,size ,pointer) . ,rest) pointer) ((,name . ,type) (->rank type)) (_ (error "field:pointer not supported:" o)))) (define (field:size o info) (pmatch o ((struct . ,type) (apply + (map (cut field:size <> info) (struct->fields type)))) ((union . ,type) (apply max (map (cut field:size <> info) (struct->fields type)))) ((,name . ,type) (->size type info)) (_ (error (format #f "field:size: ~s\n" o))))) (define (field-field info struct field) (let ((fields (type:description struct))) (let loop ((fields fields)) (if (null? fields) (error (format #f "no such field: ~a in ~s" field struct)) (let ((f (car fields))) (cond ((equal? (car f) field) f) ((and (memq (car f) '(struct union)) (type? (cdr f)) (find (lambda (x) (equal? (car x) field)) (struct->fields (cdr f))))) ((eq? (car f) 'bits) (assoc field (cdr f))) (else (loop (cdr fields))))))))) (define (field-offset info struct field) (if (eq? (type:type struct) 'union) 0 (let ((fields (type:description struct))) (let loop ((fields fields) (offset 0)) (if (null? fields) (error (format #f "no such field: ~a in ~s" field struct)) (let ((f (car fields))) (cond ((equal? (car f) field) offset) ((and (eq? (car f) 'struct) (type? (cdr f))) (let ((fields (type:description (cdr f)))) (find (lambda (x) (equal? (car x) field)) fields) (apply + (cons offset (map (cut field:size <> info) (member field (reverse fields) (lambda (a b) (equal? a (car b) field)))))))) ((and (eq? (car f) 'union) (type? (cdr f)) (let ((fields (struct->fields (cdr f)))) (and (find (lambda (x) (equal? (car x) field)) fields) offset)))) ((and (eq? (car f) 'bits) (assoc-ref (cdr f) field)) offset) (else (loop (cdr fields) (+ offset (field:size f info))))))))))) (define (field-pointer info struct field) (let ((field (field-field info struct field))) (field:pointer field))) (define (field-size info struct field) (let ((field (field-field info struct field))) (field:size field info))) (define (field-type info struct field) (let ((field (field-field info struct field))) (ast->type (cdr field) info))) (define (struct->fields o) (pmatch o (_ (guard (and (type? o) (eq? (type:type o) 'struct))) (append-map struct->fields (type:description o))) (_ (guard (and (type? o) (eq? (type:type o) 'union))) (append-map struct->fields (type:description o))) ((struct . ,type) (list (car (type:description type)))) ((union . ,type) (list (car (type:description type)))) ((bits . ,bits) bits) (_ (list o)))) (define (struct->init-fields o) ;; FIXME REMOVEME: non-recursive unroll (pmatch o (_ (guard (and (type? o) (eq? (type:type o) 'struct))) (append-map struct->init-fields (type:description o))) (_ (guard (and (type? o) (eq? (type:type o) 'union))) (list (car (type:description o)))) ((struct . ,type) (struct->init-fields type)) ((union . ,type) (list (car (type:description type)))) (_ (list o)))) (define (byte->hex.m1 o) (string-drop o 2)) (define (asm->m1 o) (let ((prefix ".byte ")) (if (not (string-prefix? prefix o)) (map (cut string-split <> #\space) (string-split o #\newline)) (let ((s (string-drop o (string-length prefix)))) (list (format #f "'~a'" (string-join (map byte->hex.m1 (cdr (string-split o #\space))) " "))))))) (define (ident->variable info o) (or (assoc-ref (.locals info) o) (assoc-ref (.statics info) o) (assoc-ref (filter (negate static-global?) (.globals info)) o) (assoc-ref (.constants info) o) (assoc-ref (.functions info) o) (begin (error "ident->variable: undefined variable:" o)))) (define (static-global? o) ((compose global:function cdr) o)) (define (string-global? o) (and (pair? (car o)) (eq? (caar o) #:string))) (define (ident->type info o) (let ((var (ident->variable info o))) (cond ((global? var) (global:type var)) ((local? var) (local:type var)) ((function? var) (function:type var)) ((assoc-ref (.constants info) o) (assoc-ref (.types info) "default")) ((pair? var) (car var)) (else (format (current-error-port) "error: ident->type ~s => ~s\n" o var) #f)))) (define (local:pointer o) (->rank o)) (define (ident->rank info o) (->rank (ident->variable info o))) (define (ident->size info o) ((compose type:size (cut ident->type info <>)) o)) (define (pointer->rank o) (pmatch o ((pointer) 1) ((pointer ,pointer) (1+ (pointer->rank pointer))))) (define (expr->rank info o) (->rank (ast->type o info))) (define (ast->size o info) (->size (ast->type o info) info)) (define (append-text info text) (clone info #:text (append (.text info) text))) (define (make-global-entry name storage type value) (cons name (make-global name type value storage #f))) (define (string->global-entry string) (let ((value (append (string->list string) (list #\nul)))) (make-global-entry `(#:string ,string) '() "char" value))) (define (make-local-entry name type id) (cons name (make-local name type id))) (define* (mescc:trace-verbose name #:optional (type "")) (format (current-error-port) " :~a~a\n" name type)) (define* (mescc:trace name #:optional (type "")) #t) (define (expr->arg o i info) (pmatch o ((p-expr (string ,string)) (let* ((globals ((globals:add-string (.globals info)) string)) (info (clone info #:globals globals)) (info (allocate-register info)) (info (append-text info (wrap-as (as info 'label->arg `(#:string ,string) i)))) (no-swap? (zero? (.pushed info))) (info (if (cc-amd? info) info (free-register info))) (info (if no-swap? info (append-text info (wrap-as (as info 'swap-r1-stack)))))) info)) (_ (let* ((info (expr->register o info)) (info (append-text info (wrap-as (as info 'r->arg i)))) (no-swap? (zero? (.pushed info))) (info (if (cc-amd? info) info (free-register info))) (info (if no-swap? info (append-text info (wrap-as (as info 'swap-r1-stack)))))) info)))) (define (globals:add-string globals) (lambda (o) (let ((string `(#:string ,o))) (if (assoc-ref globals string) globals (append globals (list (string->global-entry o))))))) (define (ident->r info) (lambda (o) (cond ((assoc-ref (.locals info) o) => (cut local->r <> info)) ((assoc-ref (.statics info) o) => (cut global->r <> info)) ((assoc-ref (filter (negate static-global?) (.globals info)) o) => (cut global->r <> info)) ((assoc-ref (.constants info) o) => (cut value->r <> info)) (else (wrap-as (as info 'label->r `(#:address ,o))))))) (define (value->r o info) (wrap-as (as info 'value->r o))) (define (local->r o info) (let* ((type (local:type o))) (cond ((or (c-array? type) (structured-type? type)) (wrap-as (as info 'local-ptr->r (local:id o)))) (else (append (wrap-as (as info 'local->r (local:id o))) (convert-r0 info type)))))) (define (global->r o info) (let ((type (global:type o))) (cond ((or (c-array? type) (structured-type? type)) (wrap-as (as info 'label->r `(#:address ,o)))) (else (append (wrap-as (as info 'label-mem->r `(#:address ,o))) (convert-r0 info type)))))) (define (ident-address->r info) (lambda (o) (cond ((assoc-ref (.locals info) o) => (lambda (local) (wrap-as (as info 'local-ptr->r (local:id local))))) ((assoc-ref (.statics info) o) => (lambda (global) (wrap-as (as info 'label->r `(#:address ,global))))) ((assoc-ref (filter (negate static-global?) (.globals info)) o) => (lambda (global) (wrap-as (as info 'label->r `(#:address ,global))))) (else (wrap-as (as info 'label->r `(#:address ,o))))))) (define (r->local+n-text info local n) (let* ((id (local:id local)) (type (local:type local)) (type* (cond ((pointer? type) type) ((c-array? type) (c-array:type type)) ((type? type) type) (else (format (current-error-port) "unexpected type: ~s\n" type) type))) (size (->size type* info)) (reg-size (->size "*" info)) (size (if (= size reg-size) 0 size))) (case size ((0) (wrap-as (as info 'r->local+n id n))) ((1) (wrap-as (as info 'byte-r->local+n id n))) ((2) (wrap-as (as info 'word-r->local+n id n))) ((4) (wrap-as (as info 'long-r->local+n id n))) (else (format (current-error-port) "unexpected size:~s\n" size) (wrap-as (as info 'r->local+n id n)))))) (define (r->ident info) (lambda (o) (cond ((assoc-ref (.locals info) o) => (lambda (local) (let ((size (->size local info)) (r-size (->size "*" info))) (wrap-as (as info 'r->local (local:id local)))))) ((assoc-ref (.statics info) o) => (lambda (global) (let* ((size (->size global info)) (reg-size (->size "*" info)) (size (if (= size reg-size) 0 size))) (case size ((0) (wrap-as (as info 'r->label global))) ((1) (wrap-as (as info 'r->byte-label global))) ((2) (wrap-as (as info 'r->word-label global))) ((4) (wrap-as (as info 'r->long-label global))) (else (wrap-as (as info 'r->label global))))))) ((assoc-ref (filter (negate static-global?) (.globals info)) o) => (lambda (global) (let* ((size (->size global info)) (reg-size (->size "*" info)) (size (if (= size reg-size) 0 size))) (case size ((0) (wrap-as (as info 'r->label global))) ((1) (wrap-as (as info 'r->byte-label global))) ((2) (wrap-as (as info 'r->word-label global))) ((4) (wrap-as (as info 'r->long-label global))) (else (wrap-as (as info 'r->label global)))))))))) (define (ident-add info) (lambda (o n) (cond ((assoc-ref (.locals info) o) => (lambda (local) (wrap-as (as info 'local-add (local:id local) n)))) ((assoc-ref (.statics info) o) => (lambda (global) (let* ((size (->size global info)) (reg-size (->size "*" info)) (size (if (= size reg-size) 0 size))) (case size ((0) (wrap-as (as info 'label-mem-add `(#:address ,o) n))) ((1) (wrap-as (as info 'byte-label-mem-add `(#:address ,o) n))) ((2) (wrap-as (as info 'word-label-mem-add `(#:address ,o) n))) ((4) (wrap-as (as info 'long-mem-add `(#:address ,o) n))) (else (as info 'label-mem-add `(#:address ,o) n)))))) ((assoc-ref (filter (negate static-global?) (.globals info)) o) => (lambda (global) (let* ((size (->size global info)) (reg-size (->size "*" info)) (size (if (= size reg-size) 0 size))) (case size ((0) (wrap-as (as info 'label-mem-add `(#:address ,o) n))) ((1) (wrap-as (as info 'byte-label-mem-add `(#:address ,o) n))) ((2) (wrap-as (as info 'word-label-mem-add `(#:address ,o) n))) ((4) (wrap-as (as info 'long-mem-add `(#:address ,o) n))) (else (as info 'label-mem-add `(#:address ,o) n))))))))) (define (make-comment o) (wrap-as `((#:comment ,o)))) (define (ast->comment o) (if mes-or-reproducible? '() (let* ((source (with-output-to-string (lambda () (pretty-print-c99 o)))) ;; Nyacc fixups (source (string-substitute source "\\" "\\\\")) (source (string-substitute source "'\\'" "'\\\\'")) (source (string-substitute source "'\"'" "'\\\"'")) (source (string-substitute source "'''" "'\\''")) (source (string-substitute source "\n" "\\n")) (source (string-substitute source "\r" "\\r"))) (make-comment source)))) (define (r*n info n) (case n ((1) info) ((2) (append-text info (wrap-as (as info 'r+r)))) ((3) (let* ((info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'r0->r1) (as info 'r+r) (as info 'r0+r1))))) (info (free-register info))) info)) ((4) (append-text info (wrap-as (as info 'shl-r 2)))) ((5) (let* ((info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'r0->r1) (as info 'r+r) (as info 'r+r) (as info 'r0+r1))))) (info (free-register info))) info)) ((6) (let* ((info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'r0->r1) (as info 'r+r) (as info 'r0+r1))))) (info (free-register info)) (info (append-text info (wrap-as (append (as info 'shl-r 1)))))) info)) ((8) (append-text info (wrap-as (append (as info 'shl-r 3))))) ((10) (let* ((info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'r0->r1) (as info 'r+r) (as info 'r+r) (as info 'r0+r1))))) (info (free-register info)) (info (append-text info (wrap-as (append (as info 'shl-r 1)))))) info)) ((12) (let* ((info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'r0->r1) (as info 'r+r) (as info 'r0+r1))))) (info (free-register info)) (info (append-text info (wrap-as (append (as info 'shl-r 2)))))) info)) ((16) (append-text info (wrap-as (as info 'shl-r 4)))) ((20) (let* ((info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'r0->r1) (as info 'r+r) (as info 'r+r) (as info 'r0+r1))))) (info (free-register info)) (info (append-text info (wrap-as (append (as info 'shl-r 2)))))) info)) ((24) (let* ((info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'r0->r1) (as info 'r+r) (as info 'r0+r1))))) (info (free-register info)) (info (append-text info (wrap-as (append (as info 'shl-r 3)))))) info)) (else (let* ((info (allocate-register info)) (info (append-text info (wrap-as (as info 'value->r n)))) (info (append-text info (wrap-as (as info 'r0*r1)))) (info (free-register info))) info)))) (define (allocate-register info) (let ((registers (.registers info)) (allocated (.allocated info))) (if (< (length allocated) (max-registers info)) (clone info #:allocated (cons (car registers) (.allocated info)) #:registers (cdr registers)) (let* ((info (clone info #:pushed (1+ (.pushed info)))) (info (append-text info (wrap-as (append (as info 'push-r0) (as info 'r1->r0)))))) info)))) (define (free-register info) (let ((allocated (.allocated info)) (pushed (.pushed info))) (if (zero? pushed) (clone info #:allocated (cdr allocated) #:registers (cons (car allocated) (.registers info))) (let* ((info (clone info #:pushed (1- pushed))) (info (append-text info (wrap-as (append (as info 'r0->r1) (as info 'pop-r0)))))) info)))) (define (push-register r info) (append-text info (wrap-as (as info 'push-register r)))) (define (pop-register r info) (append-text info (wrap-as (as info 'pop-register r)))) (define (r0->r1-mem*n- info n size) (let ((reg-size (->size "*" info))) (wrap-as (cond ((= n 1) (as info 'byte-r0->r1-mem)) ((= n 2) (cond ((= size 1) (append (as info 'byte-r0->r1-mem) (as info 'r+value 1) (as info 'value->r0 0) (as info 'byte-r0->r1-mem))) (else (as info 'word-r0->r1-mem)))) ((= n 4) (as info 'long-r0->r1-mem)) ((and (= n 8) (or (= reg-size 8) (= size 4))) (cond ((= size 4) (append (as info 'long-r0->r1-mem) (as info 'r+value 4) (as info 'value->r0 0) (as info 'long-r0->r1-mem))) ((and (= size 8) (= reg-size 8)) (as info 'quad-r0->r1-mem)) (else (error "r0->r1-mem*n-: not supported")))) (else (let loop ((i 0)) (if (>= i n) '() (case (- n i) ((1) (as info 'byte-r0-mem->r1-mem)) ((2) (as info 'word-r0-mem->r1-mem)) ((3) (append (as info 'word-r0-mem->r1-mem) (as info 'r+value 2) (as info 'r0+value 2) (loop (+ i 2)))) ((4) (append (as info 'long-r0-mem->r1-mem))) (else (append (as info 'r0-mem->r1-mem) (as info 'r+value reg-size) (as info 'r0+value reg-size) (loop (+ i reg-size)))))))))))) (define (r0->r1-mem*n info n size) (append-text info (r0->r1-mem*n- info n size))) (define (expr->register* o info) (pmatch o ((p-expr (ident ,name)) (let ((info (allocate-register info))) (append-text info ((ident-address->r info) name)))) ((de-ref ,expr) (expr->register expr info)) ((d-sel (ident ,field) ,struct) (let* ((type (ast->basic-type struct info)) (offset (field-offset info type field)) (info (expr->register* struct info))) (append-text info (wrap-as (as info 'r+value offset))))) ((i-sel (ident ,field) (fctn-call (p-expr (ident ,function)) . ,rest)) (let* ((type (ast->basic-type `(fctn-call (p-expr (ident ,function)) ,@rest) info)) (offset (field-offset info type field)) (info (expr->register `(fctn-call (p-expr (ident ,function)) ,@rest) info))) (append-text info (wrap-as (as info 'r+value offset))))) ((i-sel (ident ,field) ,struct) (let* ((type (ast->basic-type struct info)) (offset (field-offset info type field)) (info (expr->register* struct info)) (type (ast->type struct info))) (append-text info (append (if (c-array? type) '() (wrap-as (as info 'mem->r))) (wrap-as (as info 'r+value offset)))))) ((array-ref ,index ,array) (let* ((info (expr->register index info)) (size (ast->size o info)) (info (r*n info size)) (info (expr->register array info)) (info (append-text info (wrap-as (as info 'r0+r1)))) (info (free-register info))) info)) ((cast ,type ,expr) (expr->register `(ref-to ,expr) info)) ((add ,a ,b) (let* ((rank (expr->rank info a)) (rank-b (expr->rank info b)) (type (ast->basic-type a info)) (struct? (structured-type? type)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info a)) ((> rank 1) reg-size) ((and struct? (= rank 2)) reg-size) (else 1)))) (if (or (= size 1)) ((binop->r* info) a b 'r0+r1) (let* ((info (expr->register b info)) (info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'value->r size) (as info 'r0*r1))))) (info (free-register info)) (info (expr->register* a info)) (info (append-text info (wrap-as (as info 'r0+r1)))) (info (free-register info))) info)))) ((sub ,a ,b) (let* ((rank (expr->rank info a)) (rank-b (expr->rank info b)) (type (ast->basic-type a info)) (struct? (structured-type? type)) (size (->size type info)) (reg-size (->size "*" info)) (size (cond ((= rank 1) size) ((> rank 1) reg-size) ((and struct? (= rank 2)) reg-size) (else 1)))) (if (or (= size 1) (or (= rank-b 2) (= rank-b 1))) (let ((info ((binop->r* info) a b 'r0-r1))) (if (and (not (= rank-b 2)) (not (= rank-b 1))) info ;; FIXME: c&p 1158 (let* ((info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'value->r size) (as info 'swap-r0-r1) (as info 'r0/r1 #f))))) (info (append-text info (wrap-as (append (as info 'swap-r0-r1))))) (free-register info)) info))) (let* ((info (expr->register* b info)) (info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'value->r size) (as info 'r0*r1))))) (info (free-register info)) (info (expr->register* a info)) (info (append-text info (wrap-as (append (as info 'swap-r0-r1))))) (info (append-text info (wrap-as (as info 'r0-r1)))) (info (free-register info))) info)))) ((post-dec ,expr) (let* ((info (expr->register* expr info)) (post (clone info #:text '())) (post (allocate-register post)) (post (append-text post (wrap-as (as post 'r0->r1)))) (rank (expr->rank post expr)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size post expr)) ((> rank 1) reg-size) (else 1))) (post ((expr-add post) expr (- size)))) (clone info #:post (.text post)))) ((post-inc ,expr) (let* ((info (expr->register* expr info)) (post (clone info #:text '())) (post (allocate-register post)) (post (append-text post (wrap-as (as post 'r0->r1)))) (rank (expr->rank post expr)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size post expr)) ((> rank 1) reg-size) (else 1))) (post ((expr-add post) expr size))) (clone info #:post (.text post)))) ((pre-dec ,expr) (let* ((rank (expr->rank info expr)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info expr)) ((> rank 1) reg-size) (else 1))) (info ((expr-add info) expr (- size))) (info (append (expr->register* expr info)))) info)) ((pre-inc ,expr) (let* ((rank (expr->rank info expr)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info expr)) ((> rank 1) reg-size) (else 1))) (info ((expr-add info) expr size)) (info (append (expr->register* expr info)))) info)) (_ (error "expr->register*: not supported: " o)))) (define (expr-add info) (lambda (o n) (let* ((info (expr->register* o info)) (size (ast->size o info)) (reg-size (->size "*" info)) (size (if (= size reg-size) 0 size)) (info (append-text info (wrap-as (append (as info (case size ((0) 'r-mem-add) ((1) 'r-byte-mem-add) ((2) 'r-word-mem-add) ((4) 'r-long-mem-add)) n)))))) (free-register info)))) (define (expr->register o info) (let* ((locals (.locals info)) (text (.text info)) (globals (.globals info)) (r-size (->size "*" info))) (define (helper) (pmatch o ((expr) info) ((comma-expr) (allocate-register info)) ((comma-expr ,a . ,rest) (let* ((info (expr->register a info)) (info (free-register info))) (expr->register `(comma-expr ,@rest) info))) ((p-expr (string ,string)) (let* ((globals ((globals:add-string globals) string)) (info (clone info #:globals globals)) (info (allocate-register info))) (append-text info (wrap-as (as info 'label->r `(#:string ,string)))))) ((p-expr (string . ,strings)) (let* ((string (apply string-append strings)) (globals ((globals:add-string globals) string)) (info (clone info #:globals globals)) (info (allocate-register info))) (append-text info (wrap-as (as info 'label->r `(#:string ,string)))))) ((p-expr (fixed ,value)) (let* ((value (cstring->int value)) (reg-size (->size "*" info)) (info (allocate-register info)) (info (append-text info (wrap-as (as info 'value->r value))))) (if (or #t (> value 0) (= reg-size 4)) info (append-text info (wrap-as (as info 'long-signed-r)))))) ((p-expr (float ,value)) (let ((value (cstring->float value)) (info (allocate-register info))) (append-text info (wrap-as (as info 'value->r value))))) ((neg (p-expr (fixed ,value))) (let* ((value (- (cstring->int value))) (info (allocate-register info)) (info (append-text info (append (wrap-as (as info 'value->r value))))) (reg-size (->size "*" info))) (if (or #t (> value 0) (= reg-size 4)) info (append-text info (wrap-as (as info 'long-signed-r)))))) ((p-expr (char ,char)) (let ((char (char->integer (car (string->list char)))) (info (allocate-register info))) (append-text info (wrap-as (as info 'value->r char))))) (,char (guard (char? char)) (let ((info (allocate-register info))) (append-text info (wrap-as (as info 'value->r (char->integer char)))))) ((p-expr (ident ,name)) (let ((info (allocate-register info))) (append-text info ((ident->r info) name)))) ((initzer ,initzer) (expr->register initzer info)) (((initzer ,initzer)) (expr->register initzer info)) ;; offsetoff ((ref-to (i-sel (ident ,field) (cast (type-name (decl-spec-list ,struct) (abs-declr (pointer))) (p-expr (fixed ,base))))) (let* ((type (ast->basic-type struct info)) (offset (field-offset info type field)) (base (cstring->int base)) (info (allocate-register info))) (append-text info (wrap-as (as info 'value->r (+ base offset)))))) ;; &foo ((ref-to (p-expr (ident ,name))) (let ((info (allocate-register info))) (append-text info ((ident-address->r info) name)))) ;; &*foo ((ref-to (de-ref ,expr)) (expr->register expr info)) ((ref-to ,expr) (expr->register* expr info)) ((sizeof-expr ,expr) (let ((info (allocate-register info))) (append-text info (wrap-as (as info 'value->r (ast->size expr info)))))) ((sizeof-type ,type) (let ((info (allocate-register info))) (append-text info (wrap-as (as info 'value->r (ast->size type info)))))) ((array-ref ,index ,array) (let* ((info (expr->register* o info)) (type (ast->type o info))) (append-text info (mem->r type info)))) ((d-sel ,field ,struct) (let* ((info (expr->register* o info)) (info (append-text info (ast->comment o))) (type (ast->type o info)) (size (->size type info)) (array? (c-array? type))) (if array? info (append-text info (mem->r type info))))) ((i-sel ,field ,struct) (let* ((info (expr->register* o info)) (info (append-text info (ast->comment o))) (type (ast->type o info)) (size (->size type info)) (array? (c-array? type))) (if array? info (append-text info (mem->r type info))))) ((de-ref ,expr) (let* ((info (expr->register expr info)) (type (ast->type o info))) (append-text info (mem->r type info)))) ((fctn-call (p-expr (ident ,name)) (expr-list . ,expr-list)) (if (equal? name "asm") (let ((arg0 (cadr (cadar expr-list)))) (append-text info (wrap-as (asm->m1 arg0)))) (let* ((info (append-text info (ast->comment o))) (info (allocate-register info)) (allocated (.allocated info)) (pushed (.pushed info)) (registers (.registers info)) (info (fold push-register info (cdr allocated))) (reg-size (->size "*" info)) (info (if (cc-amd? info) (fold expr->arg info expr-list (iota (length expr-list))) (fold-right expr->arg info expr-list (reverse (iota (length expr-list)))))) (info (clone info #:allocated '() #:pushed 0 #:registers (append (reverse allocated) registers))) (n (length expr-list)) (info (if (not (assoc-ref locals name)) (begin (when (and (not (assoc name (.functions info))) (not (assoc name globals)) (not (equal? name (.function info)))) (format (current-error-port) "warning: undeclared function: ~a\n" name)) (append-text info (wrap-as (as info 'call-label name n)))) (let* ((info (expr->register `(p-expr (ident ,name)) info)) (info (append-text info (wrap-as (as info 'call-r n))))) info))) (info (clone info #:allocated allocated #:pushed pushed #:registers registers)) (info (if (null? (cdr allocated)) info (append-text info (wrap-as (as info 'return->r))))) (info (fold-right pop-register info (cdr allocated)))) info))) ((fctn-call ,function (expr-list . ,expr-list)) (let* ((info (append-text info (ast->comment o))) (info (allocate-register info)) (allocated (.allocated info)) (pushed (.pushed info)) (registers (.registers info)) (info (fold push-register info (cdr allocated))) (reg-size (->size "*" info)) (info (if (cc-amd? info) (fold expr->arg info expr-list (iota (length expr-list))) (fold-right expr->arg info expr-list (reverse (iota (length expr-list)))))) (info (fold (lambda (x info) (free-register info)) info (.allocated info))) (n (length expr-list)) (function (pmatch function ((de-ref ,function) function) (_ function))) (info (expr->register function info)) (info (append-text info (wrap-as (as info 'call-r n)))) (info (free-register info)) (info (clone info #:allocated allocated #:pushed pushed #:registers registers)) (info (if (null? (cdr allocated)) info (append-text info (wrap-as (as info 'return->r))))) (info (fold-right pop-register info (cdr allocated)))) info)) ((cond-expr ,test ,then ,else) (let* ((info (append-text info (ast->comment `(cond-expr ,test (ellipsis) (ellipsis))))) (here (number->string (length text))) (label (string-append "_" (.function info) "_" here "_")) (else-label (string-append label "else")) (break-label (string-append label "break")) (info ((test-jump-label->info info else-label) test)) (info (expr->register then info)) (info (free-register info)) (info (append-text info (wrap-as (as info 'jump break-label)))) (info (append-text info (wrap-as `((#:label ,else-label))))) (info (expr->register else info)) (info (free-register info)) (info (append-text info (wrap-as `((#:label ,break-label))))) (info (allocate-register info))) info)) ((post-inc ,expr) (let* ((info (append (expr->register expr info))) (rank (expr->rank info expr)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info expr)) ((> rank 1) reg-size) (else 1))) (info ((expr-add info) expr size))) info)) ((post-dec ,expr) (let* ((info (append (expr->register expr info))) (rank (expr->rank info expr)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info expr)) ((> rank 1) reg-size) (else 1))) (info ((expr-add info) expr (- size)))) info)) ((pre-inc ,expr) (let* ((rank (expr->rank info expr)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info expr)) ((> rank 1) reg-size) (else 1))) (info ((expr-add info) expr size)) (info (append (expr->register expr info)))) info)) ((pre-dec ,expr) (let* ((rank (expr->rank info expr)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info expr)) ((> rank 1) reg-size) (else 1))) (info ((expr-add info) expr (- size))) (info (append (expr->register expr info)))) info)) ((add ,a (p-expr (fixed ,value))) (let* ((rank (expr->rank info a)) (type (ast->basic-type a info)) (struct? (structured-type? type)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info a)) ((> rank 1) reg-size) ((and struct? (= rank 2)) reg-size) (else 1))) (info (expr->register a info)) (value (cstring->int value)) (value (* size value))) (append-text info (wrap-as (as info 'r+value value))))) ((add ,a ,b) (let* ((rank (expr->rank info a)) (rank-b (expr->rank info b)) (type (ast->basic-type a info)) (struct? (structured-type? type)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info a)) ((> rank 1) reg-size) ((and struct? (= rank 2)) reg-size) (else 1)))) (if (or (= size 1)) ((binop->r info) a b 'r0+r1) (let* ((info (expr->register b info)) (info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'value->r size) (as info 'r0*r1))))) (info (free-register info)) (info (expr->register a info)) (info (append-text info (wrap-as (as info 'r0+r1)))) (info (free-register info))) info)))) ((sub ,a (p-expr (fixed ,value))) (let* ((rank (expr->rank info a)) (type (ast->basic-type a info)) (struct? (structured-type? type)) (size (->size type info)) (reg-size (->size "*" info)) (size (cond ((= rank 1) size) ((> rank 1) reg-size) ((and struct? (= rank 2)) reg-size) (else 1))) (info (expr->register a info)) (value (cstring->int value)) (value (* size value))) (append-text info (wrap-as (as info 'r+value (- value)))))) ((sub ,a ,b) (let* ((rank (expr->rank info a)) (rank-b (expr->rank info b)) (type (ast->basic-type a info)) (struct? (structured-type? type)) (size (->size type info)) (reg-size (->size "*" info)) (size (cond ((= rank 1) size) ((> rank 1) reg-size) ((and struct? (= rank 2)) reg-size) (else 1)))) (if (or (= size 1) (or (= rank-b 2) (= rank-b 1))) (let ((info ((binop->r info) a b 'r0-r1))) (if (and (not (= rank-b 2)) (not (= rank-b 1))) info ;; FIXME: c&p 792 (let* ((info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'value->r size) (as info 'r0/r1 #f))))) (info (free-register info))) info))) (let* ((info (expr->register b info)) (info (allocate-register info)) (info (append-text info (wrap-as (append (as info 'value->r size) (as info 'r0*r1))))) (info (free-register info)) (info (expr->register a info)) (info (append-text info (wrap-as (append (as info 'swap-r0-r1))))) (info (append-text info (wrap-as (as info 'r0-r1)))) (info (free-register info))) info)))) ((bitwise-and ,a ,b) ((binop->r info) a b 'r0-and-r1)) ((bitwise-not ,expr) (let ((info (expr->register expr info))) (append-text info (wrap-as (as info 'not-r))))) ((bitwise-or ,a ,b) ((binop->r info) a b 'r0-or-r1)) ((bitwise-xor ,a ,b) ((binop->r info) a b 'r0-xor-r1)) ((lshift ,a ,b) (let* ((type-a (ast->type a info)) (default (get-type "default" info)) (type (if (> (->size type-a info) (->size default info)) type-a default)) (info ((binop->r info) a b 'r0<type a info)) (default (get-type "default" info)) (type (if (> (->size type-a info) (->size default info)) type-a default)) (info ((binop->r info) a b (if (signed? type) 'r0>>r1-signed 'r0>>r1)))) (append-text info (convert-r0 info type)))) ((div ,a ,b) ((binop->r info) a b 'r0/r1 (signed? (ast->type a info)))) ((mod ,a ,b) ((binop->r info) a b 'r0%r1 (signed? (ast->type a info)))) ((mul ,a ,b) ((binop->r info) a b 'r0*r1)) ((not ,expr) (let* ((info (expr->register expr info)) (info (append-text info (wrap-as (as info 'test-r)))) (info (append-text info (wrap-as (as info 'r-negate))))) (append-text info (wrap-as (as info 'test-r))))) ;; hmm, use ast->info? ((pos ,expr) (expr->register expr info)) ((neg ,expr) (let* ((info (expr->register expr info)) (info (allocate-register info)) (info (append-text info (append (wrap-as (as info 'value->r 0)) (wrap-as (as info 'swap-r0-r1)) (wrap-as (as info 'r0-r1))))) (info (free-register info))) info)) ((eq ,a ,b) (let ((info ((binop->r info) a b 'r0-cmp-r1))) (append-text info (wrap-as (as info 'zf->r))))) ((ge ,a ,b) (let* ((type-a (ast->type a info)) (type-b (ast->type b info)) (info ((binop->r info) a b 'r0-cmp-r1)) (test->r (if (or (unsigned? type-a) (unsigned? type-b)) 'ae?->r 'ge?->r)) (info (append-text info (wrap-as (as info test->r)))) (info (append-text info (wrap-as (as info 'test-r))))) info)) ((gt ,a ,b) (let* ((type-a (ast->type a info)) (type-b (ast->type b info)) (info ((binop->r info) a b 'r0-cmp-r1)) (test->r (if (or (unsigned? type-a) (unsigned? type-b)) 'a?->r 'g?->r)) (info (append-text info (wrap-as (as info test->r)))) (info (append-text info (wrap-as (as info 'test-r))))) info)) ((ne ,a ,b) (let* ((info ((binop->r info) a b 'r0-r1)) (info (append-text info (wrap-as (as info 'test-r)))) (info (append-text info (wrap-as (as info 'xor-zf)))) (info (append-text info (wrap-as (as info 'zf->r))))) info)) ((le ,a ,b) (let* ((type-a (ast->type a info)) (type-b (ast->type b info)) (info ((binop->r info) a b 'r0-cmp-r1)) (test->r (if (or (unsigned? type-a) (unsigned? type-b)) 'be?->r 'le?->r)) (info (append-text info (wrap-as (as info test->r)))) (info (append-text info (wrap-as (as info 'test-r))))) info)) ((lt ,a ,b) (let* ((type-a (ast->type a info)) (type-b (ast->type b info)) (info ((binop->r info) a b 'r0-cmp-r1)) (test->r (if (or (unsigned? type-a) (unsigned? type-b)) 'b?->r 'l?->r)) (info (append-text info (wrap-as (as info test->r)))) (info (append-text info (wrap-as (as info 'test-r))))) info)) ((or ,a ,b) (let* ((info (expr->register a info)) (here (number->string (length (.text info)))) (skip-b-label (string-append "_" (.function info) "_" here "_or_skip_b")) (info (append-text info (wrap-as (as info 'test-r)))) (info (append-text info (wrap-as (as info 'jump-nz skip-b-label)))) (info (append-text info (wrap-as (as info 'test-r)))) (info (free-register info)) (info (expr->register b info)) (info (append-text info (wrap-as (as info 'test-r)))) (info (append-text info (wrap-as `((#:label ,skip-b-label)))))) info)) ((and ,a ,b) (let* ((info (expr->register a info)) (here (number->string (length (.text info)))) (skip-b-label (string-append "_" (.function info) "_" here "_and_skip_b")) (info (append-text info (wrap-as (as info 'test-r)))) (info (append-text info (wrap-as (as info 'jump-z skip-b-label)))) (info (append-text info (wrap-as (as info 'test-r)))) (info (free-register info)) (info (expr->register b info)) (info (append-text info (wrap-as (as info 'test-r)))) (info (append-text info (wrap-as `((#:label ,skip-b-label)))))) info)) ((cast ,type ,expr) (let ((info (expr->register expr info)) (type (ast->type o info))) (append-text info (convert-r0 info type)))) ((assn-expr (de-ref (post-inc (p-expr (ident ,name)))) (op ,op) ,b) (let* ((info (expr->register `(assn-expr (de-ref (p-expr (ident ,name))) (op ,op) ,b) info)) (type (ident->type info name)) (rank (ident->rank info name)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info `(p-expr (ident ,name)))) ((> rank 1) reg-size) (else 1)))) (append-text info ((ident-add info) name size)))) ((assn-expr (de-ref (post-dec (p-expr (ident ,name)))) (op ,op) ,b) (let* ((info (expr->register `(assn-expr (de-ref (p-expr (ident ,name))) (op ,op) ,b) info)) (type (ident->type info name)) (rank (ident->rank info name)) (reg-size (->size "*" info)) (size (cond ((= rank 1) (ast-type->size info `(p-expr (ident ,name)))) ((> rank 1) reg-size) (else 1)))) (append-text info ((ident-add info) name (- size))))) ((assn-expr ,a (op ,op) ,b) (let* ((info (append-text info (ast->comment o))) (type (ast->type a info)) (rank (->rank type)) (type-b (ast->type b info)) (rank-b (->rank type-b)) (reg-size (->size "*" info)) (size (if (zero? rank) (->size type info) reg-size)) (size-b (if (zero? rank-b) (->size type-b info) reg-size)) (info (expr->register b info)) (info (if (equal? op "=") info (let* ((struct? (structured-type? type)) (size (cond ((= rank 1) (ast-type->size info a)) ((> rank 1) reg-size) ((and struct? (= rank 2)) reg-size) (else 1))) (info (if (or (= size 1) (= rank-b 1)) info (let* ((info (allocate-register info)) (info (append-text info (wrap-as (as info 'value->r size)))) (info (append-text info (wrap-as (as info 'r0*r1)))) (info (free-register info))) info))) (info (expr->register a info)) (info (append-text info (wrap-as (as info 'swap-r0-r1)))) (signed? (signed? type)) (info (append-text info (cond ((equal? op "+=") (wrap-as (as info 'r0+r1))) ((equal? op "-=") (wrap-as (as info 'r0-r1))) ((equal? op "*=") (wrap-as (as info 'r0*r1))) ((equal? op "/=") (wrap-as (as info 'r0/r1 signed?))) ((equal? op "%=") (wrap-as (as info 'r0%r1 signed?))) ((equal? op "&=") (wrap-as (as info 'r0-and-r1))) ((equal? op "|=") (wrap-as (as info 'r0-or-r1))) ((equal? op "^=") (wrap-as (as info 'r0-xor-r1))) ((equal? op ">>=") (wrap-as (as info (if signed? 'r0>>r1-signed 'r0>>r1)))) ((equal? op "<<=") (wrap-as (as info 'r0<basic-type b info))))))))) (when (and (equal? op "=") (not (= size size-b)) (not (and (or (= size 1) (= size 2)) (or (= size-b 2) (= size-b 4) (= size-b reg-size)))) (not (and (= size 2) (= size-b 4))) (not (and (= size 2) (= size-b reg-size))) (not (and (= size reg-size) (or (= size-b 1) (= size-b 2) (= size-b 4))))) (format (current-error-port) "ERROR assign: ~a" (with-output-to-string (lambda () (pretty-print-c99 o)))) (format (current-error-port) " size[~a]:~a != size[~a]:~a\n" rank size rank-b size-b)) (pmatch a ((p-expr (ident ,name)) (if (or (<= size r-size) (<= size-b r-size)) (append-text info ((r->ident info) name)) (let* ((info (expr->register* a info)) (info (r0->r1-mem*n info size size-b))) (free-register info)))) (_ (let* ((info (expr->register* a info)) (reg-size (->size "*" info)) (info (if (not (bit-field? type)) info (let* ((bit (bit-field:bit type)) (bits (bit-field:bits type)) (set-mask (- (ash bits 1) 1)) (shifted-set-mask (ash set-mask bit)) (clear-mask (logxor shifted-set-mask (if (= reg-size 4) #b11111111111111111111111111111111 #b1111111111111111111111111111111111111111111111111111111111111111))) (info (append-text info (wrap-as (as info 'swap-r0-r1)))) (info (allocate-register info)) (info (append-text info (wrap-as (as info 'r2->r0)))) (info (append-text info (wrap-as (as info 'swap-r0-r1)))) (info (append-text info (wrap-as (as info 'mem->r)))) (info (append-text info (wrap-as (as info 'r-and clear-mask)))) (info (append-text info (wrap-as (as info 'swap-r0-r1)))) (info (append-text info (wrap-as (as info 'r-and set-mask)))) (info (append-text info (wrap-as (as info 'shl-r bit)))) (info (append-text info (wrap-as (as info 'r0-or-r1)))) (info (free-register info)) (info (append-text info (wrap-as (as info 'swap-r0-r1))))) info))) (info (r0->r1-mem*n info (min size (max reg-size size-b)) (min size (max reg-size size-b)))) (info (free-register info))) info))))) (_ (error "expr->register: not supported: " o)))) (let ((info (helper))) (if (null? (.post info)) info (append-text (clone info #:post '()) (.post info)))))) (define (mem->r type info) (let* ((size (->size type info)) (reg-size (->size "*" info)) (size (if (= size reg-size) 0 size))) (case size ((0) (wrap-as (as info 'mem->r))) ((1) (append (wrap-as (as info 'byte-mem->r)) (convert-r0 info type))) ((2) (append (wrap-as (as info 'word-mem->r)) (convert-r0 info type))) ((4) (append (wrap-as (as info 'long-mem->r)) (convert-r0 info type))) (else '())))) (define (convert-r0 info type) (if (not (type? type)) '() (let ((sign (signed? type)) (size (->size type info)) (reg-size (->size "*" info))) (cond ((and (= size 1) sign) (wrap-as (as info 'byte-signed-r))) ((= size 1) (wrap-as (as info 'byte-r)) ;;(wrap-as (as info 'byte-signed-r)) ) ((and (= size 2) sign) (wrap-as (as info 'word-signed-r))) ((= size 2) (wrap-as (as info 'word-r)) ;;(wrap-as (as info 'word-signed-r)) ) ((and (> reg-size 4) (= size 4) sign) (wrap-as (as info 'long-signed-r))) ((and (> reg-size 4) (= size 4)) ;; for 17-unsigned-le (wrap-as (as info 'long-signed-r)) ; huh, why not long-r? ;; for a0-call-trunc-int ;;(wrap-as (as info 'long-r)) ) (else '()))))) (define (binop->r info) (lambda (a b c . rest) (let* ((info (expr->register a info)) (info (expr->register b info)) (info (append-text info (wrap-as (apply as info (cons c rest)))))) (free-register info)))) (define (binop->r* info) (lambda (a b c) (let* ((info (expr->register* a info)) (info (expr->register b info)) (info (append-text info (wrap-as (as info c))))) (free-register info)))) (define (wrap-as o . annotation) `(,@annotation ,o)) (define (comment? o) (and (pair? o) (pair? (car o)) (eq? (caar o) #:comment))) (define (test-jump-label->info info label) (define (jump type . test) (lambda (o) (let* ((info (expr->register o info)) (info (append-text info (make-comment "jmp test LABEL"))) (jump-text (wrap-as (as info type label))) (info (append-text info (append (if (null? test) '() ((car test) info)) jump-text))) (info (free-register info))) info))) (lambda (o) (pmatch o ((expr) info) ((le ,a ,b) ((jump 'jump-z) o)) ((lt ,a ,b) ((jump 'jump-z) o)) ((ge ,a ,b) ((jump 'jump-z) o)) ((gt ,a ,b) ((jump 'jump-z) o)) ((ne ,a ,b) ((jump 'jump-nz) o)) ((eq ,a ,b) ((jump 'jump-nz) o)) ((not _) ((jump 'jump-z) o)) ((and ,a ,b) (let* ((info ((test-jump-label->info info label) a)) (info ((test-jump-label->info info label) b))) info)) ((or ,a ,b) (let* ((here (number->string (length (if mes-or-reproducible? (.text info) (filter (negate comment?) (.text info)))))) (skip-b-label (string-append label "_skip_b_" here)) (b-label (string-append label "_b_" here)) (info ((test-jump-label->info info b-label) a)) (info (append-text info (wrap-as (as info 'jump skip-b-label)))) (info (append-text info (wrap-as `((#:label ,b-label))))) (info ((test-jump-label->info info label) b)) (info (append-text info (wrap-as `((#:label ,skip-b-label)))))) info)) ((array-ref ,index ,expr) (let* ((rank (expr->rank info expr)) (reg-size (->size "*" info)) (size (if (= rank 1) (ast-type->size info expr) reg-size))) ((jump (if (= size 1) 'jump-byte-z 'jump-z) (lambda (info) (wrap-as (as info 'r-zero?)))) o))) ((de-ref ,expr) (let* ((rank (expr->rank info expr)) (r-size (->size "*" info)) (size (if (= rank 1) (ast-type->size info expr) r-size))) ((jump (if (= size 1) 'jump-byte-z 'jump-z) (lambda (info) (wrap-as (as info 'r-zero?)))) o))) ((assn-expr (p-expr (ident ,name)) ,op ,expr) ((jump 'jump-z (lambda (info) (append ((ident->r info) name) (wrap-as (as info 'r-zero?))))) o)) (_ ((jump 'jump-z (lambda (info) (wrap-as (as info 'r-zero?)))) o))))) (define (cstring->int o) (let ((o (cond ((string-suffix? "ULL" o) (string-drop-right o 3)) ((string-suffix? "UL" o) (string-drop-right o 2)) ((string-suffix? "U" o) (string-drop-right o 1)) ((string-suffix? "LL" o) (string-drop-right o 2)) ((string-suffix? "L" o) (string-drop-right o 1)) (else o)))) (or (cond ((string-prefix? "0x" o) (string->number (string-drop o 2) 16)) ((string-prefix? "0b" o) (string->number (string-drop o 2) 2)) ((string-prefix? "0" o) (string->number o 8)) (else (string->number o))) (error "cstring->int: not supported:" o)))) (define (cstring->float o) (or (string->number o) (error "cstring->float: not supported:" o))) (define (try-expr->number info o) (pmatch o ((fixed ,a) (cstring->int a)) ((p-expr ,expr) (expr->number info expr)) ((pos ,a) (expr->number info a)) ((neg ,a) (- (expr->number info a))) ((add ,a ,b) (+ (expr->number info a) (expr->number info b))) ((bitwise-and ,a ,b) (logand (expr->number info a) (expr->number info b))) ((bitwise-not ,a) (lognot (expr->number info a))) ((bitwise-or ,a ,b) (logior (expr->number info a) (expr->number info b))) ((div ,a ,b) (quotient (expr->number info a) (expr->number info b))) ((mul ,a ,b) (* (expr->number info a) (expr->number info b))) ((sub ,a ,b) (- (expr->number info a) (expr->number info b))) ((sizeof-type ,type) (->size (ast->type type info) info)) ((sizeof-expr ,expr) (->size (ast->type expr info) info)) ((lshift ,x ,y) (ash (expr->number info x) (expr->number info y))) ((rshift ,x ,y) (ash (expr->number info x) (- (expr->number info y)))) ((p-expr (ident ,name)) (let ((value (assoc-ref (.constants info) name))) (or value (error (format #f "expr->number: undeclared identifier: ~s\n" o))))) ((cast ,type ,expr) (expr->number info expr)) ((cond-expr ,test ,then ,else) (if (p-expr->bool info test) (expr->number info then) (expr->number info else))) (,string (guard (string? string)) (cstring->int string)) ((ident ,name) (assoc-ref (.constants info) name)) (_ #f))) (define (expr->number info o) (or (try-expr->number info o) (error (format #f "expr->number: not supported: ~s\n" o)))) (define (p-expr->bool info o) (pmatch o ((eq ,a ,b) (eq? (expr->number info a) (expr->number info b))))) (define (struct-field info) (lambda (o) (pmatch o ((comp-decl (decl-spec-list (type-spec (enum-def (ident ,name) (enum-def-list . ,fields)))) (comp-declr-list . ,decls)) (append-map (lambda (o) ((struct-field info) `(comp-decl (decl-spec-list (type-spec "int")) (comp-declr-list ,o)))) decls)) ((comp-decl (decl-spec-list (type-spec ,type)) (comp-declr-list (comp-declr (ident ,name)))) (list (cons name (ast->type type info)))) ((comp-decl (decl-spec-list (type-spec ,type)) (comp-declr-list (comp-declr (ptr-declr ,pointer (ident ,name))))) (let ((rank (pointer->rank pointer))) (list (cons name (rank+= (ast->type type info) rank))))) ((comp-decl (decl-spec-list (type-spec ,type)) (comp-declr-list (comp-declr (ftn-declr (scope (ptr-declr ,pointer (ident ,name))) _)))) (let ((rank (pointer->rank pointer))) (list (cons name (rank+= (ast->type type info) rank))))) ((comp-decl (decl-spec-list (type-spec ,type)) (comp-declr-list (comp-declr (ptr-declr ,pointer (array-of (ident ,name) ,count))))) (let ((rank (pointer->rank pointer)) (count (expr->number info count))) (list (cons name (make-c-array (rank+= type rank) count))))) ((comp-decl (decl-spec-list (type-spec ,type)) (comp-declr-list (comp-declr (array-of (ident ,name) ,count)))) (let ((count (expr->number info count))) (list (cons name (make-c-array (ast->type type info) count))))) ((comp-decl (decl-spec-list (type-spec (struct-def (field-list . ,fields))))) (let ((fields (append-map (struct-field info) fields))) (list (cons 'struct (make-type 'struct (apply + (map (cut field:size <> info) fields)) fields))))) ((comp-decl (decl-spec-list (type-spec (union-def (field-list . ,fields))))) (let ((fields (append-map (struct-field info) fields))) (list (cons 'union (make-type 'union (apply + (map (cut field:size <> info) fields)) fields))))) ((comp-decl (decl-spec-list (type-spec ,type)) (comp-declr-list (comp-declr (bit-field (ident ,name) (p-expr (fixed ,bits)))) . ,fields)) (let ((type (ast->type type info))) (list (cons 'bits (let loop ((o `((comp-declr (bit-field (ident ,name) (p-expr (fixed ,bits)))) . ,fields)) (bit 0)) (if (null? o) '() (let ((field (car o))) (pmatch field ((comp-declr (bit-field (ident ,name) (p-expr (fixed ,bits)))) (let ((bits (cstring->int bits))) (cons (cons name (make-bit-field type bit bits)) (loop (cdr o) (+ bit bits))))) (_ (error "struct-field: not supported:" field o)))))))))) ((comp-decl (decl-spec-list ,type) (comp-declr-list . ,decls)) (append-map (lambda (o) ((struct-field info) `(comp-decl (decl-spec-list ,type) (comp-declr-list ,o)))) decls)) (_ (error "struct-field: not supported: " o))))) (define (local-var? o) ;; formals < 0, locals > 0 (positive? (local:id o))) (define (ptr-declr->rank o) (pmatch o ((pointer) 1) ((pointer (pointer)) 2) ((pointer (pointer (pointer))) 3) (_ (error "ptr-declr->rank not supported: " o)))) (define (ast->info o info) (let ((functions (.functions info)) (globals (.globals info)) (locals (.locals info)) (constants (.constants info)) (types (.types info)) (text (.text info))) (pmatch o (((trans-unit . _) . _) (ast-list->info o info)) ((trans-unit . ,_) (ast-list->info _ info)) ((fctn-defn . ,_) (fctn-defn->info _ info)) ((cpp-stmt (define (name ,name) (repl ,value))) info) ((cast (type-name (decl-spec-list (type-spec (void)))) _) info) ((break) (let ((label (car (.break info)))) (append-text info (wrap-as (as info 'jump label))))) ((continue) (let ((label (car (.continue info)))) (append-text info (wrap-as (as info 'jump label))))) ;; FIXME: expr-stmt wrapper? (trans-unit info) ((expr-stmt) info) ((compd-stmt (block-item-list . ,_)) (let* ((locals (.locals info)) (info (ast-list->info _ info))) (clone info #:locals locals))) ((asm-expr ,gnuc (,null ,arg0 . string)) (append-text info (wrap-as (asm->m1 arg0)))) ;; Nyacc 0.90.2 ((asm-expr ,gnuc (string ,arg0)) (append-text info (wrap-as (asm->m1 arg0)))) ((expr-stmt (fctn-call (p-expr (ident ,name)) (expr-list . ,expr-list))) (if (equal? name "asm") (let ((arg0 (cadr (cadar expr-list)))) (append-text info (wrap-as (asm->m1 arg0)))) (let* ((info (expr->register `(fctn-call (p-expr (ident ,name)) (expr-list . ,expr-list)) info)) (info (free-register info)) (info (append-text info (wrap-as (as info 'r-zero?))))) info))) ((if ,test ,then) (let* ((info (append-text info (ast->comment `(if ,test (ellipsis))))) (here (number->string (length text))) (label (string-append "_" (.function info) "_" here "_")) (break-label (string-append label "break")) (else-label (string-append label "else")) (info ((test-jump-label->info info break-label) test)) (info (ast->info then info)) (info (append-text info (wrap-as (as info 'jump break-label)))) (info (append-text info (wrap-as `((#:label ,break-label)))))) (clone info #:locals locals))) ((if ,test ,then ,else) (let* ((info (append-text info (ast->comment `(if ,test (ellipsis) (ellipsis))))) (here (number->string (length text))) (label (string-append "_" (.function info) "_" here "_")) (break-label (string-append label "break")) (else-label (string-append label "else")) (info ((test-jump-label->info info else-label) test)) (info (ast->info then info)) (info (append-text info (wrap-as (as info 'jump break-label)))) (info (append-text info (wrap-as `((#:label ,else-label))))) (info (ast->info else info)) (info (append-text info (wrap-as `((#:label ,break-label)))))) (clone info #:locals locals))) ;; Hmm? ((expr-stmt (cond-expr ,test ,then ,else)) (let ((info (expr->register `(cond-expr ,test ,then ,else) info))) (free-register info))) ((switch ,expr (compd-stmt (block-item-list . ,statements))) (define (clause? o) (pmatch o ((case . _) 'case) ((default . _) 'default) ((labeled-stmt _ ,statement) (clause? statement)) (_ #f))) (define clause-number (let ((i 0)) (lambda (o) (let ((n i)) (when (clause? (car o)) (set! i (1+ i))) n)))) (define (flatten-cases c) (define (flatten-case o) (pmatch o ((case ,test (case . ,body)) (cons `(case ,test (expr-stmt)) (flatten-case `(case ,@body)))) ((case ,test ,case-body (case . ,body)) (cons `(case ,test ,case-body) (flatten-case `(case ,@body)))) ((default (case . ,body)) (cons `(default (expr-stmt)) (flatten-case `(case ,@body)))) ((default ,default-body (case . ,body)) (cons `(default ,default-body) (flatten-case `(case ,@body)))) ((case ,test (default . ,body)) (cons `(case ,test (expr-stmt)) (flatten-case `(default ,@body)))) ((default ,rest) (list o)) ((case ,test) (list o)) ((case ,test ,expr) (list o)) (,s (list s)))) (fold (lambda (x acc) (append acc (flatten-case x))) '() c)) (let* ((info (append-text info (ast->comment `(switch ,expr (compd-stmt (block-item-list (ellipsis))))))) (statements (flatten-cases statements)) (here (number->string (length text))) (label (string-append "_" (.function info) "_" here "_")) (break-label (string-append label "break")) (info (expr->register expr info)) (info (clone info #:break (cons break-label (.break info)))) (count (length (filter clause? statements))) (default? (find (cut eq? <> 'default) (map clause? statements))) (info (fold (cut switch->info #t label (1- count) <> <> <>) info statements (unfold null? clause-number cdr statements))) (last-clause-label (string-append label "clause" (number->string count))) (default-label (string-append label "default")) (info (if (not default?) info (append-text info (wrap-as (as info 'jump break-label))))) (info (append-text info (wrap-as `((#:label ,last-clause-label))))) (info (if (not default?) info (append-text info (wrap-as (as info 'jump default-label))))) (info (append-text info (wrap-as `((#:label ,break-label)))))) (clone info #:locals locals #:break (cdr (.break info))))) ((for ,init ,test ,step ,body) (let* ((info (append-text info (ast->comment `(for ,init ,test ,step (ellipsis))))) (here (number->string (length text))) (label (string-append "_" (.function info) "_" here "_")) (break-label (string-append label "break")) (loop-label (string-append label "loop")) (continue-label (string-append label "continue")) (initial-skip-label (string-append label "initial_skip")) (info (ast->info init info)) (info (clone info #:break (cons break-label (.break info)))) (info (clone info #:continue (cons continue-label (.continue info)))) (info (append-text info (wrap-as (as info 'jump initial-skip-label)))) (info (append-text info (wrap-as `((#:label ,loop-label))))) (info (ast->info body info)) (info (append-text info (wrap-as `((#:label ,continue-label))))) (info (if (equal? step '(expr)) info (let ((info (expr->register step info))) (free-register info)))) (info (append-text info (wrap-as `((#:label ,initial-skip-label))))) (info ((test-jump-label->info info break-label) test)) (info (append-text info (wrap-as (as info 'jump loop-label)))) (info (append-text info (wrap-as `((#:label ,break-label)))))) (clone info #:locals locals #:break (cdr (.break info)) #:continue (cdr (.continue info))))) ((while ,test ,body) (let* ((info (append-text info (ast->comment `(while ,test (ellipsis))))) (here (number->string (length text))) (label (string-append "_" (.function info) "_" here "_")) (break-label (string-append label "break")) (loop-label (string-append label "loop")) (continue-label (string-append label "continue")) (info (append-text info (wrap-as (as info 'jump continue-label)))) (info (clone info #:break (cons break-label (.break info)))) (info (clone info #:continue (cons continue-label (.continue info)))) (info (append-text info (wrap-as `((#:label ,loop-label))))) (info (ast->info body info)) (info (append-text info (wrap-as `((#:label ,continue-label))))) (info ((test-jump-label->info info break-label) test)) (info (append-text info (wrap-as (as info 'jump loop-label)))) (info (append-text info (wrap-as `((#:label ,break-label)))))) (clone info #:locals locals #:break (cdr (.break info)) #:continue (cdr (.continue info))))) ((do-while ,body ,test) (let* ((info (append-text info (ast->comment `(do-while ,test (ellipsis))))) (here (number->string (length text))) (label (string-append "_" (.function info) "_" here "_")) (break-label (string-append label "break")) (loop-label (string-append label "loop")) (continue-label (string-append label "continue")) (info (clone info #:break (cons break-label (.break info)))) (info (clone info #:continue (cons continue-label (.continue info)))) (info (append-text info (wrap-as `((#:label ,loop-label))))) (info (ast->info body info)) (info (append-text info (wrap-as `((#:label ,continue-label))))) (info ((test-jump-label->info info break-label) test)) (info (append-text info (wrap-as (as info 'jump loop-label)))) (info (append-text info (wrap-as `((#:label ,break-label)))))) (clone info #:locals locals #:break (cdr (.break info)) #:continue (cdr (.continue info))))) ((labeled-stmt (ident ,label) ,statement) (let ((info (append-text info `(((#:label ,(string-append "_" (.function info) "_label_" label))))))) (ast->info statement info))) ((goto (ident ,label)) (append-text info (wrap-as (as info 'jump (string-append "_" (.function info) "_label_" label))))) ((return (expr)) (let ((info (fold (lambda (x info) (free-register info)) info (.allocated info)))) (append-text info (append (wrap-as (as info 'ret)))))) ((return ,expr) (let* ((info (fold (lambda (x info) (free-register info)) info (.allocated info))) (info (expr->register expr info)) (info (free-register info))) (append-text info (append (wrap-as (as info 'ret)))))) ((decl . ,decl) (let ((info (append-text info (ast->comment o)))) (decl->info info decl))) ((gt . _) (free-register (expr->register o info))) ((ge . _) (free-register (expr->register o info))) ((ne . _) (free-register (expr->register o info))) ((eq . _) (free-register (expr->register o info))) ((le . _) (free-register (expr->register o info))) ((lt . _) (free-register (expr->register o info))) ((lshift . _) (free-register (expr->register o info))) ((rshift . _) (free-register (expr->register o info))) ((expr-stmt ,expression) (let* ((info (expr->register expression info)) (info (append-text info (wrap-as (as info 'r-zero?))))) (fold (lambda (x info) (free-register info)) info (.allocated info)))) (_ (let* ((info (expr->register o info)) (info (append-text info (wrap-as (as info 'r-zero?))))) (fold (lambda (x info) (free-register info)) info (.allocated info))))))) (define (ast-list->info o info) (fold ast->info info o)) (define (switch->info clause? label count o i info) (let* ((i-string (number->string i)) (i+1-string (number->string (1+ i))) (body-label (string-append label "body" i-string)) (clause-label (string-append label "clause" i-string)) (first? (= i 0)) (last? (= i count)) (break-label (string-append label "break")) (next-clause-label (string-append label "clause" i+1-string)) (default-label (string-append label "default"))) (define (jump label) (wrap-as (as info 'jump label))) (pmatch o ((case ,test) (define (jump-nz label) (wrap-as (as info 'jump-nz label))) (define (jump-z label) (wrap-as (as info 'jump-z label))) (define (test->text test) (let ((value (pmatch test (0 0) ((p-expr (char ,value)) (char->integer (car (string->list value)))) ((p-expr (ident ,constant)) (assoc-ref (.constants info) constant)) ((p-expr (fixed ,value)) (cstring->int value)) ((neg (p-expr (fixed ,value))) (- (cstring->int value))) (_ (error "case test: not supported: " test))))) (append (wrap-as (as info 'r-cmp-value value)) (jump-z body-label)))) (let ((info (if clause? (append-text info (wrap-as `((#:label ,clause-label)))) info))) (append-text info (test->text test)))) ((case ,test (default . ,rest)) (let ((info (if clause? (append-text info (wrap-as `((#:label ,clause-label)))) info))) (fold (cut switch->info #f label count <> i <>) info (cons `(case ,test) `(default ,@rest))))) ((case ,test ,statement) (let* ((info (if first? info (append-text info (jump body-label)))) ; Enables fallthrough (info (if clause? (append-text info (wrap-as `((#:label ,clause-label)))) info)) (info (switch->info #f label count `(case ,test) i info)) (info (append-text info (jump next-clause-label))) (info (append-text info (wrap-as `((#:label ,body-label))))) (info (ast->info statement info))) info)) ((default (case . ,case1) . ,rest) (let* ((info (if clause? (append-text info (wrap-as `((#:label ,clause-label)))) info)) (info (if last? info (append-text info (jump next-clause-label)))) (info (append-text info (wrap-as `((#:label ,default-label))))) (info (append-text info (jump body-label))) (info (append-text info (wrap-as `((#:label ,body-label)))))) (fold (cut switch->info #f label count <> i <>) info `((case ,@case1) ,@rest)))) (default (let* ((info (if clause? (append-text info (wrap-as `((#:label ,clause-label)))) info)) (info (if last? info (append-text info (jump next-clause-label)))) (info (append-text info (wrap-as `((#:label ,default-label))))) (info (append-text info (jump body-label))) (info (append-text info (wrap-as `((#:label ,body-label)))))) info)) ((default ,statement) (let* ((info (if clause? (append-text info (wrap-as `((#:label ,clause-label)))) info)) (info (if last? info (append-text info (jump next-clause-label)))) (info (append-text info (wrap-as `((#:label ,default-label))))) (info (append-text info (wrap-as `((#:label ,body-label)))))) (ast->info statement info))) ((default ,statement ,rest) (let* ((info (if clause? (append-text info (wrap-as `((#:label ,clause-label)))) info)) (info (if last? info (append-text info (jump next-clause-label)))) (info (append-text info (wrap-as `((#:label ,default-label))))) (info (append-text info (wrap-as `((#:label ,body-label)))))) (fold ast->info (ast->info statement info) rest))) ((labeled-stmt (ident ,goto-label) ,statement) (let ((info (append-text info `(((#:label ,(string-append "_" (.function info) "_label_" goto-label))))))) (switch->info clause? label count statement i info))) (_ (ast->info o info))))) (define (global->static function) (lambda (o) (cons (car o) (set-field (cdr o) (global:function) function)))) (define (decl->info info o) (pmatch o (((decl-spec-list (type-spec ,type)) (init-declr-list . ,inits)) (let* ((info (type->info type #f info)) (type (ast->type type info))) (fold (cut init-declr->info type 'storage <> <>) info (map cdr inits)))) (((decl-spec-list (type-spec ,type))) (type->info type #f info)) (((decl-spec-list (stor-spec (typedef)) (type-spec ,type)) (init-declr-list (init-declr (ident ,name)))) (let* ((info (type->info type name info)) (type (ast->type type info))) (clone info #:types (acons name type (.types info))))) ;; FIXME: recursive types, pointer, array (((decl-spec-list (stor-spec (typedef)) (type-spec ,type)) (init-declr-list (init-declr (array-of (ident ,name) ,count)))) (let* ((info (type->info type name info)) (type (ast->type type info)) (count (expr->number info count)) (type (make-c-array type count))) (clone info #:types (acons name type (.types info))))) (((decl-spec-list (stor-spec (typedef)) (type-spec ,type)) (init-declr-list (init-declr (ptr-declr ,pointer (ident ,name))))) (let* ((info (type->info type name info)) (type (ast->type type info)) (rank (pointer->rank pointer)) (type (rank+= type rank))) (clone info #:types (acons name type (.types info))))) (((decl-spec-list (stor-spec (,store)) (type-spec ,type)) (init-declr-list . ,inits)) (let* ((info (type->info type #f info)) (type (ast->type type info)) (function (.function info))) (if (not function) (fold (cut init-declr->info type store <> <>) info (map cdr inits)) (let* ((tmp (clone info #:function #f #:globals '())) (tmp (fold (cut init-declr->info type store <> <>) tmp (map cdr inits))) (statics (map (global->static function) (.globals tmp))) (strings (filter string-global? (.globals tmp)))) (clone info #:globals (append (.globals info) strings) #:statics (append statics (.statics info))))))) (((decl-spec-list (stor-spec (,store)) (type-spec ,type))) (type->info type #f info)) (((@ . _)) (format (current-error-port) "decl->info: skip: ~s\n" o) info) (_ (error "decl->info: not supported:" o)))) (define (ast->name o) (pmatch o ((ident ,name) name) ((array-of ,array . ,_) (ast->name array)) ((ftn-declr (scope (ptr-declr ,pointer (ident ,name))) . _) name) ((ptr-declr ,pointer ,decl . ,_) (ast->name decl)) ((ptr-declr ,pointer (ident ,name)) name) (_ (error "ast->name not supported: " o)))) (define (init-declr->count info o) (pmatch o ((array-of (ident ,name) ,count) (expr->number info count)) (_ #f))) (define (init->r o info) (pmatch o ((initzer-list (initzer ,expr)) (expr->register expr info)) (((#:string ,string)) (expr->register `(p-expr (string ,string)) info)) ((,number . _) (guard (number? number)) (expr->register `(p-expr (fixed 0)) info)) ((,c . ,_) (guard (char? c)) info) (_ (expr->register o info)))) (define (init-struct-field local field n init info) (let* ((offset (field-offset info (local:type local) (car field))) (size (field:size field info)) (offset (+ offset (* n size))) (info (expr->register init info)) (info (allocate-register info)) (info (append-text info (local->r local info))) (info (append-text info (wrap-as (as info 'r+value offset)))) (reg-size (->size "*" info)) (size (min size reg-size)) (info (r0->r1-mem*n info size size)) (info (free-register info)) (info (free-register info))) info)) (define (init-struct-struct-field local type offset field init info) (let* ((offset (+ offset (field-offset info type (car field)))) (size (field:size field info)) (info (expr->register init info)) (info (allocate-register info)) (info (append-text info (local->r local info))) (info (append-text info (wrap-as (as info 'r+value offset)))) (reg-size (->size "*" info)) (size (min size reg-size)) (info (r0->r1-mem*n info size size)) (info (free-register info)) (info (free-register info))) info)) (define (init-array-entry local index init info) (let* ((type (local:type local)) (size (cond ((pointer? type) (->size "*" info)) ((and (c-array? type) ((compose pointer? c-array:type) type)) (->size "*" info)) ((c-array? type) ((compose type:size c-array:type) type)) (else (type:size type)))) (offset (* index size)) (info (expr->register init info)) (info (allocate-register info)) (info (append-text info (local->r local info))) (info (append-text info (wrap-as (as info 'r+value offset)))) (reg-size (->size "*" info)) (size (min size reg-size)) (info (r0->r1-mem*n info size size)) (info (fold (lambda (x info) (free-register info)) info (.allocated info)))) info)) (define (init-local local o n info) (pmatch o (#f info) ((initzer ,init) (init-local local init n info)) ((initzer-list . ,inits) (let ((local-type (local:type local))) (cond ((structured-type? local) (let* ((fields (struct->init-fields local-type)) (field+counts (let loop ((fields fields)) (if (null? fields) '() (let* ((field (car fields)) (type (cdr field))) (cond ((c-array? type) (append (map (lambda (i) (let ((field (cons (car field) (c-array:type type)))) (cons field i))) (iota (c-array:count type))) (loop (cdr fields)))) (else (cons (cons field 0) (loop (cdr fields)))))))))) (let loop ((field+counts field+counts) (inits inits) (info info)) (if (null? field+counts) info (let* ((field (caaar field+counts)) (type (cdaar field+counts))) (if (and (type? type) (eq? (type:type type) 'struct)) (let* ((field-fields (type:description type)) (field-inits (list-head inits (max (length inits) (length field-fields)))) (missing (max 0 (- (length field-fields) (length field-inits)))) (field-inits+ (append field-inits (map (const '(p-expr (fixed "0"))) (iota missing)))) (offset (field-offset info local-type field)) ;; (info (init-local local `(initzer-list ,field-inits) n info)) ;; crap, howto recurse? -- would need new local for TYPE ;; just do two deep for now (info (fold (cut init-struct-struct-field local type offset <> <> <>) info field-fields field-inits+))) (loop (list-tail field+counts (min (length field+counts) (length field-fields))) (list-tail inits (min (length field-inits) (length field-inits))) info)) (let* ((missing (max 0 (- (length field+counts) (length inits)))) (counts (map cdr field+counts)) (fields (map car field+counts)) (info (fold (cut init-struct-field local <> <> <> <>) info fields counts (append inits (map (const '(p-expr (fixed "0"))) (iota missing)))))) ;; bah, loopme! ;;(loop (list-tail field+counts (length field-fields)) (list-tail inits (length field-inits)) info) info))))))) (else (let* ((type (local:type local)) (type (if (c-array? type) (c-array:type type) type)) (size (->size type info))) (fold (cut init-local local <> <> <>) info inits (iota (length inits) 0 size))))))) (,string (guard (string? string)) (let ((inits (string->list string))) (fold (cut init-array-entry local <> <> <>) info (iota (length inits)) inits))) (((initzer (initzer-list . ,inits))) (init-local local (car o) n info)) (() info) (_ (let* ((info (init->r o info)) (info (append-text info (r->local+n-text info local n)))) (free-register info))))) (define (local->info type name o init info) (let* ((locals (.locals info)) (id (if (or (null? locals) (not (local-var? (cdar locals)))) 1 (1+ (local:id (cdar locals))))) (local (make-local-entry name type id)) (pointer (->rank (cdr local))) (array? (or (and (c-array? type) type) (and (pointer? type) (c-array? (pointer:type type)) (pointer:type type)) (and (pointer? type) (pointer? (pointer:type type)) (c-array? (pointer:type (pointer:type type))) (pointer:type (pointer:type type))))) (struct? (structured-type? type)) (size (->size type info)) (string (and array? (array-init->string init))) (init (or string init)) (reg-size (->size "*" info)) (local (if (not array?) local (let ((size (or (and string (max size (1+ (string-length string)))) size))) (make-local-entry name type (+ (local:id (cdr local)) -1 (quotient (+ size (1- reg-size)) reg-size)))))) (local (if struct? (make-local-entry name type (+ (local:id (cdr local)) (quotient (+ size (1- reg-size)) reg-size))) local)) (locals (cons local locals)) (info (clone info #:locals locals)) (local (cdr local))) (init-local local init 0 info))) (define (global->info storage type name o init info) (let* ((rank (->rank type)) (size (->size type info)) (data (cond ((not init) (string->list (make-string size #\nul))) ((c-array? type) (let* ((string (array-init->string init)) (size (or (and string (max size (1+ (string-length string)))) size)) (data (or (and=> string string->list) (array-init->data type size init info)))) (append data (string->list (make-string (max 0 (- size (length data))) #\nul))))) ((structured-type? type) (let ((data (init->data type init info))) (append data (string->list (make-string (max 0 (- size (length data))) #\nul))))) (else (let ((data (init->data type init info))) (append data (string->list (make-string (max 0 (- size (length data))) #\nul))))))) (global (make-global-entry name storage type data))) (clone info #:globals (append (.globals info) (list global))))) (define (array-init-element->data type o info) (pmatch o ((initzer (p-expr (string ,string))) (let ((reg-size (->size "*" info))) (if (= reg-size 8) `((#:string ,string) "%0") `((#:string ,string))))) ((initzer (p-expr (fixed ,fixed))) (if (structured-type? type) (let ((fields (map cdr (struct->init-fields type)))) (int->bv type (expr->number info fixed) info)) (int->bv type (expr->number info fixed) info))) ((initzer (initzer-list . ,inits)) (cond ((structured-type? type) (let* ((fields (map cdr (struct->init-fields type))) (missing (max 0 (- (length fields) (length inits)))) (inits (append inits (map (const '(fixed "0")) (iota missing))))) (map (cut array-init-element->data <> <> info) fields inits))) ((c-array? type) (let* ((missing (max 0 (- (c-array:count type) (length inits)))) (inits (append inits (map (const '(fixed "0")) (iota missing))))) (map (cut array-init-element->data (c-array:type type) <> info) inits))) (else (format (current-error-port) "array-init-element->data: oops:~s\n" o) (format (current-error-port) "type:~s\n" type) (error "array-init-element->data: not supported: " o)))) (_ (init->data type o info)) (_ (error "array-init-element->data: not supported: " o)))) (define (array-init->data type size o info) (pmatch o ((initzer (initzer-list . ,inits)) (let ((type (c-array:type type))) (if (structured-type? type) (let* ((init-fields (struct->init-fields type)) ;; FIXME (count (length init-fields))) (let loop ((inits inits)) (if (null? inits) '() (let ((init (car inits))) (pmatch init ((initzer (initzer-list . ,car-inits)) (append (array-init-element->data type init info) (loop (cdr inits)))) (_ (let* ((count (min (length inits) (length init-fields))) (field-inits (list-head inits count))) (append (array-init-element->data type `(initzer-list ,@field-inits) info) (loop (list-tail inits count)))))))))) (map (cut array-init-element->data type <> info) inits)))) (((initzer (initzer-list . ,inits))) (array-init->data type size (car o) info)) ((initzer (p-expr (string ,string))) (let ((data (string->list string))) (if (not size) data (append data (string->list (make-string (max 0 (- size (length data))) #\nul)))))) (((initzer (p-expr (string ,string)))) (array-init->data type size (car o) info)) ((initzer (p-expr (string . ,strings))) (let ((data (string->list (apply string-append strings)))) (if (not size) data (append data (string->list (make-string (max 0 (- size (length data))) #\nul)))))) (((initzer (p-expr (string . ,strings)))) (array-init->data type size (car o) info)) ((initzer (p-expr (fixed ,fixed))) (int->bv type (expr->number info fixed) info)) (() (string->list (make-string size #\nul))) (_ (error "array-init->data: not supported: " o)))) (define (array-init->string o) (pmatch o ((p-expr (string ,string)) string) ((p-expr (string . ,strings)) (apply string-append strings)) ((initzer ,init) (array-init->string init)) (((initzer ,init)) (array-init->string init)) ((initzer-list (initzer (p-expr (char ,c))) . ,inits) (list->string (map (lambda (i) (pmatch i ((initzer (p-expr (char ,c))) ((compose car string->list) c)) ((initzer (p-expr (fixed ,fixed))) (let ((value (cstring->int fixed))) (if (and (>= value 0) (<= value 255)) (integer->char value) (error "array-init->string: not supported:" i o)))) (_ (error "array-init->string: not supported:" i o)))) (cdr o)))) (_ #f))) (define (init-declr->info type storage o info) (pmatch o (((ident ,name)) (if (.function info) (local->info type name o #f info) (global->info storage type name o #f info))) (((ident ,name) (initzer ,init)) (let* ((strings (init->strings init info)) (info (if (null? strings) info (clone info #:globals (append (.globals info) strings))))) (if (.function info) (local->info type name o init info) (global->info storage type name o init info)))) (((ftn-declr (ident ,name) . ,_)) (let ((functions (.functions info))) (if (member name functions) info (let ((function (make-function name type #f))) (clone info #:functions (cons (cons name function) functions)))))) (((ftn-declr (scope (ptr-declr ,pointer (ident ,name))) ,param-list) ,init) (let* ((rank (pointer->rank pointer)) (type (rank+= type rank))) (if (.function info) (local->info type name o init info) (global->info storage type name o init info)))) (((ftn-declr (scope (ptr-declr ,pointer (ident ,name))) ,param-list)) (let* ((rank (pointer->rank pointer)) (type (rank+= type rank))) (if (.function info) (local->info type name o '() info) (global->info storage type name o '() info)))) (((ptr-declr ,pointer . ,_) . ,init) (let* ((rank (pointer->rank pointer)) (type (rank+= type rank))) (init-declr->info type storage (append _ init) info))) (((array-of (ident ,name) ,count) . ,init) (let* ((strings (init->strings init info)) (info (if (null? strings) info (clone info #:globals (append (.globals info) strings)))) (count (expr->number info count)) (type (make-c-array type count))) (if (.function info) (local->info type name o init info) (global->info storage type name o init info)))) (((array-of (ident ,name)) . ,init) (let* ((strings (init->strings init info)) (info (if (null? strings) info (clone info #:globals (append (.globals info) strings)))) (count (length (cadar init))) (type (make-c-array type count))) (if (.function info) (local->info type name o init info) (global->info storage type name o init info)))) ;; FIXME: recursion (((array-of (array-of (ident ,name) ,count1) ,count) . ,init) (let* ((strings (init->strings init info)) (info (if (null? strings) info (clone info #:globals (append (.globals info) strings)))) (count (expr->number info count)) (count1 (expr->number info count1)) (type (make-c-array (make-c-array type count1) count))) (if (.function info) (local->info type name o init info) (global->info storage type name o init info)))) (_ (error "init-declr->info: not supported: " o)))) (define (enum-def-list->constants constants fields) (let loop ((fields fields) (i 0) (constants constants)) (if (pair? fields) (let ((field (car fields))) (mescc:trace (cadr (cadr field)) " "))) (if (null? fields) constants (let* ((field (car fields)) (name (pmatch field ((enum-defn (ident ,name) . _) name))) (i (pmatch field ((enum-defn ,name) i) ((enum-defn ,name ,exp) (expr->number #f exp)) (_ (error "not supported enum field=~s\n" field))))) (loop (cdr fields) (1+ i) (append constants (list (ident->constant name i)))))))) (define (init->data type o info) (pmatch o ((p-expr ,expr) (init->data type expr info)) ((fixed ,fixed) (int->bv type (expr->number info o) info)) ((char ,char) (int->bv type (char->integer (string-ref char 0)) info)) ((string ,string) (let ((reg-size (->size "*" info))) (if (= reg-size 8) `((#:string ,string) "%0") `((#:string ,string))))) ((string . ,strings) (let ((reg-size (->size "*" info))) (if (= reg-size 8) `((#:string ,(string-join strings "")) "%0") `((#:string ,(string-join strings "")))))) ((ident ,name) (let ((var (ident->variable info name))) (if (number? var) (int->bv type var info) `((#:address ,var))))) ((initzer-list . ,inits) (cond ((structured-type? type) (map (cut init->data <> <> info) (map cdr (struct->init-fields type)) inits)) ((c-array? type) (let ((size (->size type info))) (array-init->data type size `(initzer ,o) info))) (else (append-map (cut init->data type <> info) inits)))) (((initzer (initzer-list . ,inits))) (init->data type `(initzer-list . ,inits) info)) ((ref-to (p-expr (ident ,name))) (let ((var (ident->variable info name)) (reg-size (->size "*" info))) `((#:address ,var) ,@(if (= reg-size 8) '((#:address 0)) '())))) ((ref-to (i-sel (ident ,field) (cast (type-name (decl-spec-list ,struct) (abs-declr (pointer))) (p-expr (fixed ,base))))) (let* ((type (ast->type struct info)) (offset (field-offset info type field)) (base (cstring->int base))) (int->bv type (+ base offset) info))) ((,char . _) (guard (char? char)) o) ((,number . _) (guard (number? number)) (append (map (cut int->bv <> <> info) type o))) ((initzer ,init) (init->data type init info)) (((initzer ,init)) (init->data type init info)) ((cast _ ,expr) (init->data type expr info)) (() '()) (_ (let ((number (try-expr->number info o))) (cond (number (int->bv type number info)) (else (error "init->data: not supported: " o))))))) (define (int->bv type o info) (let ((size (->size type info))) (case size ((1) (int->bv8 o)) ((2) (int->bv16 o)) ((4) (int->bv32 o)) ((8) (int->bv64 o)) (else (int->bv64 o))))) (define (init->strings o info) (let ((globals (.globals info))) (pmatch o ((p-expr (string ,string)) (let ((g `(#:string ,string))) (if (assoc g globals) '() (list (string->global-entry string))))) ((p-expr (string . ,strings)) (let* ((string (string-join strings "")) (g `(#:string ,string))) (if (assoc g globals) '() (list (string->global-entry string))))) (((initzer (initzer-list . ,init))) (append-map (cut init->strings <> info) init)) ((initzer ,init) (init->strings init info)) (((initzer ,init)) (init->strings init info)) ((initzer-list . ,init) (append-map (cut init->strings <> info) init)) (_ '())))) (define (type->info o name info) (pmatch o ((enum-def (ident ,name) (enum-def-list . ,fields)) (mescc:trace name " ") (let* ((type-entry (enum->type-entry name fields)) (constants (enum-def-list->constants (.constants info) fields))) (clone info #:types (cons type-entry (.types info)) #:constants (append constants (.constants info))))) ((enum-def (enum-def-list . ,fields)) (mescc:trace name " ") (let* ((type-entry (enum->type-entry name fields)) (constants (enum-def-list->constants (.constants info) fields))) (clone info #:types (cons type-entry (.types info)) #:constants (append constants (.constants info))))) ((struct-def (field-list . ,fields)) (mescc:trace name " ") (let* ((info (fold field->info info fields)) (type-entry (struct->type-entry info name (append-map (struct-field info) fields)))) (clone info #:types (cons type-entry (.types info))))) ((struct-def (ident ,name) (field-list . ,fields)) (mescc:trace name " ") (let* ((info (fold field->info info fields)) (type-entry (struct->type-entry info name (append-map (struct-field info) fields)))) (clone info #:types (cons type-entry (.types info))))) ((union-def (ident ,name) (field-list . ,fields)) (mescc:trace name " ") (let ((type-entry (union->type-entry info name (append-map (struct-field info) fields)))) (clone info #:types (cons type-entry (.types info))))) ((union-def (field-list . ,fields)) (mescc:trace name " ") (let ((type-entry (union->type-entry info name (append-map (struct-field info) fields)))) (clone info #:types (cons type-entry (.types info))))) ((enum-ref . _) info) ((struct-ref . _) info) ((typename ,name) info) ((union-ref . _) info) ((fixed-type . _) info) ((float-type . _) info) ((void) info) (_ ;;(error "type->info: not supported:" o) info ))) (define (field->info o info) (pmatch o ((comp-decl (decl-spec-list (type-spec (struct-def (ident ,name) (field-list . ,fields)))) . _) (let* ((fields (append-map (struct-field info) fields)) (struct (make-type 'struct (apply + (map (cut field:size <> info) fields)) fields))) (clone info #:types (acons `(tag ,name) struct (.types info))))) ((comp-decl (decl-spec-list (type-spec (union-def (ident ,name) (field-list . ,fields)))) . _) (let* ((fields (append-map (struct-field info) fields)) (union (make-type 'union (apply + (map (cut field:size <> info) fields)) fields))) (clone info #:types (acons `(tag ,name) union (.types info))) )) ((comp-decl (decl-spec-list (type-spec (enum-def (enum-def-list . ,fields)))) . _) (let ((constants (enum-def-list->constants (.constants info) fields))) (clone info #:constants (append constants (.constants info))))) ((comp-decl (decl-spec-list (type-spec (enum-def (ident ,name) (enum-def-list . ,fields)))) . _) (let ((constants (enum-def-list->constants (.constants info) fields)) (type-entry (enum->type-entry name fields))) (clone info #:types (cons type-entry (.types info)) #:constants (append constants (.constants info))))) (_ info))) ;;; fctn-defn (define (param-decl:get-name o) (pmatch o ((ellipsis) #f) ((param-decl (decl-spec-list (type-spec (void)))) #f) ((param-decl _ (param-declr ,ast)) (ast->name ast)) (_ (error "param-decl:get-name not supported:" o)))) (define (fctn-defn:get-name o) (pmatch o ((_ (ftn-declr (ident ,name) _) _) name) ((_ (ftn-declr (scope (ident ,name)) _) _) name) ((_ (ptr-declr (pointer . _) (ftn-declr (ident ,name) _)) _) name) (_ (error "fctn-defn:get-name not supported:" o)))) (define (param-decl:get-type o info) (pmatch o ((ellipsis) #f) ((param-decl (decl-spec-list ,type)) (ast->type type info)) ((param-decl (decl-spec-list (type-spec ,type)) (param-declr (ptr-declr ,pointer (ident ,name)))) (let ((rank (pointer->rank pointer))) (rank+= (ast->type type info) rank))) ((param-decl (decl-spec-list ,type) (param-declr (ptr-declr ,pointer (array-of _)))) (let ((rank (pointer->rank pointer))) (rank+= (ast->type type info) (1+ rank)))) ((param-decl ,type _) (ast->type type info)) (_ (error "param-decl:get-type not supported:" o)))) (define (fctn-defn:get-formals o) (pmatch o ((_ (ftn-declr _ ,formals) _) formals) ((_ (ptr-declr (pointer . _) (ftn-declr _ ,formals)) _) formals) (_ (error "fctn-defn->formals: not supported:" o)))) (define (formal->text n) (lambda (o i) ;;(i386:formal i n) '() )) (define (param-list->text o info) (pmatch o ((param-list . ,formals) (let ((n (length formals))) (wrap-as (append (as info 'function-preamble formals) (append-map (formal->text n) formals (iota n)) (as info 'function-locals))))) (_ (error "param-list->text: not supported: " o)))) (define (param-list->locals o info) (pmatch o ((param-list . ,formals) (let ((n (length formals))) (map make-local-entry (map param-decl:get-name formals) (map (cut param-decl:get-type <> info) formals) (iota n -2 -1)))) (_ (error "param-list->locals: not supported:" o)))) (define (fctn-defn:get-type info o) (pmatch o (((decl-spec-list (type-spec ,type)) (ptr-declr ,pointer . _) ,statement) (let* ((type (ast->type type info)) (rank (ptr-declr->rank pointer))) (if (zero? rank) type (make-pointer type rank)))) (((decl-spec-list (stor-spec ,store) (type-spec ,type)) (ptr-declr ,pointer . _) ,statement) (let* ((type (ast->type type info)) (rank (ptr-declr->rank pointer))) (if (zero? rank) type (make-pointer type rank)))) (((decl-spec-list (type-spec ,type)) . _) (ast->type type info)) (((decl-spec-list (stor-spec ,store) (type-spec ,type)) . _) (ast->type type info)) (_ (error "fctn-defn:get-type: not supported:" o)))) (define (fctn-defn:get-statement o) (pmatch o ((_ (ftn-declr (ident _) _) ,statement) statement) ((_ (ftn-declr (scope (ident _)) _) ,statement) statement) ((_ (ptr-declr (pointer . _) (ftn-declr (ident _) . _)) ,statement) statement) (_ (error "fctn-defn:get-statement: not supported: " o)))) (define (fctn-defn->info o info) (define (assert-return text) (let ((return (wrap-as (as info 'ret)))) (if (equal? (list-tail text (- (length text) (length return))) return) text (append text return)))) (let ((name (fctn-defn:get-name o))) (mescc:trace name) (let* ((type (fctn-defn:get-type info o)) (formals (fctn-defn:get-formals o)) (text (param-list->text formals info)) (locals (param-list->locals formals info)) (statement (fctn-defn:get-statement o)) (function (cons name (make-function name type '()))) (functions (cons function (.functions info))) (info (clone info #:locals locals #:function name #:text text #:functions functions #:statics '())) (info (ast->info statement info)) (locals (.locals info)) (local (and (pair? locals) (car locals))) (count (and=> local (compose local:id cdr))) (reg-size (->size "*" info)) (stack (and count (* count reg-size)))) (if (and stack (getenv "MESC_DEBUG")) (format (current-error-port) " stack: ~a\n" stack)) (clone info #:function #f #:globals (append (.statics info) (.globals info)) #:statics '() #:functions (append (.functions info) (list (cons name (make-function name type (assert-return (.text info))))))))))