;;; Copyright (C) 2010-2011,2013-2014,2024 Free Software Foundation, Inc. ;;; ;;; This library is free software: you can redistribute it and/or modify ;;; it under the terms of the GNU Lesser General Public License as ;;; published by the Free Software Foundation, either version 3 of the ;;; License, or (at your option) any later version. ;;; ;;; This library 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 ;;; Lesser General Public License for more details. ;;; ;;; You should have received a copy of the GNU Lesser General Public ;;; License along with this program. If not, see ;;; . (define-module (system foreign) #:use-module (ice-9 match) #:use-module (rnrs bytevectors) #:use-module (srfi srfi-1) #:use-module (srfi srfi-9) #:use-module (srfi srfi-9 gnu) #:use-module (srfi srfi-11) #:use-module (system base target) #:export (void float double complex-float complex-double short unsigned-short int unsigned-int long unsigned-long size_t ssize_t ptrdiff_t int8 uint8 uint16 int16 uint32 int32 uint64 int64 intptr_t uintptr_t sizeof alignof %null-pointer null-pointer? pointer? make-pointer pointer->scm scm->pointer pointer-address pointer->bytevector bytevector->pointer set-pointer-finalizer! dereference-pointer string->pointer pointer->string pointer->procedure ;; procedure->pointer (see below) read-c-struct write-c-struct make-c-struct parse-c-struct define-wrapped-pointer-type)) (eval-when (expand load eval) (load-extension (string-append "libguile-" (effective-version)) "scm_init_foreign")) ;;; ;;; Pointers. ;;; (define (null-pointer? pointer) "Return true if POINTER is the null pointer." (= (pointer-address pointer) 0)) (if (defined? 'procedure->pointer) (export procedure->pointer)) ;;; ;;; Structures. ;;; (define-syntax compile-time-eval (lambda (stx) "Evaluate the target-dependent expression EXP at compile-time if we are not cross-compiling; otherwise leave it to be evaluated at run-time." (syntax-case stx () ((_ exp) (if (equal? (target-type) %host-type) #`(quote #,(datum->syntax #'here (primitive-eval (syntax->datum #'exp)))) #'exp))))) ;; Note that in a cross-compiled Guile, the host and the target may have ;; different values of, say, `long'. However the explicitly-sized types ;; int8, float, etc have the same value on all platforms. sizeof on ;; these types is also a target-invariant primitive. alignof is notably ;; *not* target-invariant. (define-syntax switch/compile-time-keys (syntax-rules (else) ((_ x (k expr) ... (else alt)) (let ((t x)) (cond ((eq? t (compile-time-eval k)) expr) ... (else alt)))))) (define-syntax-rule (align off alignment) (1+ (logior (1- off) (1- alignment)))) (define bytevector-pointer-ref (case (sizeof '*) ((8) (lambda (bv offset) (make-pointer (bytevector-u64-native-ref bv offset)))) ((4) (lambda (bv offset) (make-pointer (bytevector-u32-native-ref bv offset)))) (else (error "what machine is this?")))) (define bytevector-pointer-set! (case (sizeof '*) ((8) (lambda (bv offset ptr) (bytevector-u64-native-set! bv offset (pointer-address ptr)))) ((4) (lambda (bv offset ptr) (bytevector-u32-native-set! bv offset (pointer-address ptr)))) (else (error "what machine is this?")))) (define-syntax-rule (define-complex-accessors (read write) (%read %write size)) (begin (define (read bv offset) (make-rectangular (%read bv offset) (%read bv (+ offset size)))) (define (write bv offset val) (%write bv offset (real-part val)) (%write bv (+ offset size) (imag-part val))))) (define-complex-accessors (bytevector-complex-single-native-ref bytevector-complex-single-native-set!) (bytevector-ieee-single-native-ref bytevector-ieee-single-native-set! 4)) (define-complex-accessors (bytevector-complex-double-native-ref bytevector-complex-double-native-set!) (bytevector-ieee-double-native-ref bytevector-ieee-double-native-set! 8)) (define-syntax-rule (read-field %bv %offset %type) (let ((bv %bv) (offset %offset) (type %type)) (define-syntax-rule (%read type reader) (let* ((offset (align offset (compile-time-eval (alignof type)))) (val (reader bv offset))) (values val (+ offset (compile-time-eval (sizeof type)))))) (define-syntax-rule (dispatch-read type (%%type reader) (... ...)) (switch/compile-time-keys type (%%type (%read %%type reader)) (... ...) (else (let ((offset (align offset (alignof type)))) (values (%read-c-struct bv offset type) (+ offset (sizeof type))))))) (dispatch-read type (int8 bytevector-s8-ref) (uint8 bytevector-u8-ref) (int16 bytevector-s16-native-ref) (uint16 bytevector-u16-native-ref) (int32 bytevector-s32-native-ref) (uint32 bytevector-u32-native-ref) (int64 bytevector-s64-native-ref) (uint64 bytevector-u64-native-ref) (float bytevector-ieee-single-native-ref) (double bytevector-ieee-double-native-ref) (complex-float bytevector-complex-single-native-ref) (complex-double bytevector-complex-double-native-ref) ('* bytevector-pointer-ref)))) (define-syntax-rule (read-c-struct %bv %offset ((field type) ...) k) (let ((bv %bv) (offset %offset) (size (compile-time-eval (sizeof (list type ...))))) (unless (<= (bytevector-length bv) (+ offset size)) (error "destination bytevector too small")) (let*-values (((field offset) (read-field bv offset (compile-time-eval type))) ...) (k field ...)))) (define-syntax-rule (write-field %bv %offset %type %value) (let ((bv %bv) (offset %offset) (type %type) (value %value)) (define-syntax-rule (%write type writer) (let ((offset (align offset (compile-time-eval (alignof type))))) (writer bv offset value) (+ offset (compile-time-eval (sizeof type))))) (define-syntax-rule (dispatch-write type (%%type writer) (... ...)) (switch/compile-time-keys type (%%type (%write %%type writer)) (... ...) (else (let ((offset (align offset (alignof type)))) (%write-c-struct bv offset type value) (+ offset (sizeof type)))))) (dispatch-write type (int8 bytevector-s8-set!) (uint8 bytevector-u8-set!) (int16 bytevector-s16-native-set!) (uint16 bytevector-u16-native-set!) (int32 bytevector-s32-native-set!) (uint32 bytevector-u32-native-set!) (int64 bytevector-s64-native-set!) (uint64 bytevector-u64-native-set!) (float bytevector-ieee-single-native-set!) (double bytevector-ieee-double-native-set!) (complex-float bytevector-complex-single-native-set!) (complex-double bytevector-complex-double-native-set!) ('* bytevector-pointer-set!)))) (define-syntax-rule (write-c-struct %bv %offset ((field type) ...)) (let ((bv %bv) (offset %offset) (size (compile-time-eval (sizeof (list type ...))))) (unless (<= (bytevector-length bv) (+ offset size)) (error "destination bytevector too small")) (let* ((offset (write-field bv offset (compile-time-eval type) field)) ...) (values)))) ;; Same as write-c-struct, but with run-time dispatch. (define (%write-c-struct bv offset types vals) (let lp ((offset offset) (types types) (vals vals)) (match types (() (match vals (() #t) (_ (error "too many values" vals)))) ((type . types) (match vals ((val . vals) (lp (write-field bv offset type val) types vals)) (() (error "too few values" vals))))))) ;; Same as read-c-struct, but with run-time dispatch. (define (%read-c-struct bv offset types) (let lp ((offset offset) (types types)) (match types (() '()) ((type . types) (call-with-values (lambda () (read-field bv offset type)) (lambda (val offset) (cons val (lp offset types)))))))) (define (make-c-struct types vals) (let ((bv (make-bytevector (sizeof types) 0))) (%write-c-struct bv 0 types vals) (bytevector->pointer bv))) (define (parse-c-struct foreign types) (%read-c-struct (pointer->bytevector foreign (sizeof types)) 0 types)) ;;; ;;; Wrapped pointer types. ;;; (define-syntax define-wrapped-pointer-type (lambda (stx) "Define helper procedures to wrap pointer objects into Scheme objects with a disjoint type. Specifically, this macro defines PRED, a predicate for the new Scheme type, WRAP, a procedure that takes a pointer object and returns an object that satisfies PRED, and UNWRAP which does the reverse. PRINT must name a user-defined object printer." (syntax-case stx () ((_ type-name pred wrap unwrap print) (with-syntax ((%wrap (datum->syntax #'wrap (gensym "wrap")))) #'(begin (define-record-type type-name (%wrap pointer) pred (pointer unwrap)) (define wrap ;; Use a weak hash table to preserve pointer identity, i.e., ;; PTR1 == PTR2 <-> (eq? (wrap PTR1) (wrap PTR2)). (let ((ptr->obj (make-weak-value-hash-table 3000))) (lambda (ptr) (or (hash-ref ptr->obj ptr) (let ((o (%wrap ptr))) (hash-set! ptr->obj ptr o) o))))) (set-record-type-printer! type-name print)))))))