swap out linalg.lsp (original) with linalg.lisp (leveragin lisp-atrix)

[CommonLispStat.git] / external / cffi.darcs / src / cffi-cmucl.lisp

;;;; -*- Mode: lisp; indent-tabs-mode: nil -*-
;;;
;;; cffi-cmucl.lisp --- CFFI-SYS implementation for CMU CL.
;;;
;;; Copyright (C) 2005-2006, James Bielman  <jamesjb@jamesjb.com>
;;;
;;; Permission is hereby granted, free of charge, to any person
;;; obtaining a copy of this software and associated documentation
;;; files (the "Software"), to deal in the Software without
;;; restriction, including without limitation the rights to use, copy,
;;; modify, merge, publish, distribute, sublicense, and/or sell copies
;;; of the Software, and to permit persons to whom the Software is
;;; furnished to do so, subject to the following conditions:
;;;
;;; The above copyright notice and this permission notice shall be
;;; included in all copies or substantial portions of the Software.
;;;
;;; THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
;;; EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
;;; MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
;;; NONINFRINGEMENT.  IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
;;; HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
;;; WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
;;; OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
;;; DEALINGS IN THE SOFTWARE.
;;;

;;;# Administrivia

(defpackage #:cffi-sys
  (:use #:common-lisp #:alien #:c-call #:cffi-utils #:alexandria)
  (:export
   #:canonicalize-symbol-name-case
   #:foreign-pointer
   #:pointerp
   #:pointer-eq
   #:null-pointer
   #:null-pointer-p
   #:inc-pointer
   #:make-pointer
   #:pointer-address
   #:%foreign-alloc
   #:foreign-free
   #:with-foreign-pointer
   #:%foreign-funcall
   #:%foreign-funcall-pointer
   #:%foreign-type-alignment
   #:%foreign-type-size
   #:%load-foreign-library
   #:%close-foreign-library
   #:native-namestring
   #:%mem-ref
   #:%mem-set
   #:make-shareable-byte-vector
   #:with-pointer-to-vector-data
   #:%foreign-symbol-pointer
   #:%defcallback
   #:%callback))

(in-package #:cffi-sys)

;;;# Features

(eval-when (:compile-toplevel :load-toplevel :execute)
  (mapc (lambda (feature) (pushnew feature *features*))
        '(cffi-features:flat-namespace)))

;;;# Symbol Case

(defun canonicalize-symbol-name-case (name)
  (declare (string name))
  (string-upcase name))

;;;# Basic Pointer Operations

(deftype foreign-pointer ()
  'sys:system-area-pointer)

(declaim (inline pointerp))
(defun pointerp (ptr)
  "Return true if PTR is a foreign pointer."
  (sys:system-area-pointer-p ptr))

(declaim (inline pointer-eq))
(defun pointer-eq (ptr1 ptr2)
  "Return true if PTR1 and PTR2 point to the same address."
  (sys:sap= ptr1 ptr2))

(declaim (inline null-pointer))
(defun null-pointer ()
  "Construct and return a null pointer."
  (sys:int-sap 0))

(declaim (inline null-pointer-p))
(defun null-pointer-p (ptr)
  "Return true if PTR is a null pointer."
  (zerop (sys:sap-int ptr)))

(declaim (inline inc-pointer))
(defun inc-pointer (ptr offset)
  "Return a pointer pointing OFFSET bytes past PTR."
  (sys:sap+ ptr offset))

(declaim (inline make-pointer))
(defun make-pointer (address)
  "Return a pointer pointing to ADDRESS."
  (sys:int-sap address))

(declaim (inline pointer-address))
(defun pointer-address (ptr)
  "Return the address pointed to by PTR."
  (sys:sap-int ptr))

(defmacro with-foreign-pointer ((var size &optional size-var) &body body)
  "Bind VAR to SIZE bytes of foreign memory during BODY.  The
pointer in VAR is invalid beyond the dynamic extent of BODY, and
may be stack-allocated if supported by the implementation.  If
SIZE-VAR is supplied, it will be bound to SIZE during BODY."
  (unless size-var
    (setf size-var (gensym "SIZE")))
  ;; If the size is constant we can stack-allocate.
  (if (constantp size)
      (let ((alien-var (gensym "ALIEN")))
        `(with-alien ((,alien-var (array (unsigned 8) ,(eval size))))
           (let ((,size-var ,(eval size))
                 (,var (alien-sap ,alien-var)))
             (declare (ignorable ,size-var))
             ,@body)))
      `(let* ((,size-var ,size)
              (,var (%foreign-alloc ,size-var)))
         (unwind-protect
              (progn ,@body)
           (foreign-free ,var)))))

;;;# Allocation
;;;
;;; Functions and macros for allocating foreign memory on the stack
;;; and on the heap.  The main CFFI package defines macros that wrap
;;; FOREIGN-ALLOC and FOREIGN-FREE in UNWIND-PROTECT for the common usage
;;; when the memory has dynamic extent.

(defun %foreign-alloc (size)
  "Allocate SIZE bytes on the heap and return a pointer."
  (declare (type (unsigned-byte 32) size))
  (alien-funcall
   (extern-alien
    "malloc"
    (function system-area-pointer unsigned))
   size))

(defun foreign-free (ptr)
  "Free a PTR allocated by FOREIGN-ALLOC."
  (declare (type system-area-pointer ptr))
  (alien-funcall
   (extern-alien
    "free"
    (function (values) system-area-pointer))
   ptr))

;;;# Shareable Vectors
;;;
;;; This interface is very experimental.  WITH-POINTER-TO-VECTOR-DATA
;;; should be defined to perform a copy-in/copy-out if the Lisp
;;; implementation can't do this.

(defun make-shareable-byte-vector (size)
  "Create a Lisp vector of SIZE bytes that can passed to
WITH-POINTER-TO-VECTOR-DATA."
  (make-array size :element-type '(unsigned-byte 8)))

(defmacro with-pointer-to-vector-data ((ptr-var vector) &body body)
  "Bind PTR-VAR to a foreign pointer to the data in VECTOR."
  `(sys:without-gcing
     (let ((,ptr-var (sys:vector-sap ,vector)))
       ,@body)))

;;;# Dereferencing

;;; Define the %MEM-REF and %MEM-SET functions, as well as compiler
;;; macros that optimize the case where the type keyword is constant
;;; at compile-time.
(defmacro define-mem-accessors (&body pairs)
  `(progn
    (defun %mem-ref (ptr type &optional (offset 0))
      (ecase type
        ,@(loop for (keyword fn) in pairs
                collect `(,keyword (,fn ptr offset)))))
    (defun %mem-set (value ptr type &optional (offset 0))
      (ecase type
        ,@(loop for (keyword fn) in pairs
                collect `(,keyword (setf (,fn ptr offset) value)))))
    (define-compiler-macro %mem-ref
        (&whole form ptr type &optional (offset 0))
      (if (constantp type)
          (ecase (eval type)
            ,@(loop for (keyword fn) in pairs
                    collect `(,keyword `(,',fn ,ptr ,offset))))
          form))
    (define-compiler-macro %mem-set
        (&whole form value ptr type &optional (offset 0))
      (if (constantp type)
          (once-only (value)
            (ecase (eval type)
              ,@(loop for (keyword fn) in pairs
                      collect `(,keyword `(setf (,',fn ,ptr ,offset)
                                                ,value)))))
          form))))

(define-mem-accessors
  (:char sys:signed-sap-ref-8)
  (:unsigned-char sys:sap-ref-8)
  (:short sys:signed-sap-ref-16)
  (:unsigned-short sys:sap-ref-16)
  (:int sys:signed-sap-ref-32)
  (:unsigned-int sys:sap-ref-32)
  (:long sys:signed-sap-ref-32)
  (:unsigned-long sys:sap-ref-32)
  (:long-long sys:signed-sap-ref-64)
  (:unsigned-long-long sys:sap-ref-64)
  (:float sys:sap-ref-single)
  (:double sys:sap-ref-double)
  (:pointer sys:sap-ref-sap))

;;;# Calling Foreign Functions

(defun convert-foreign-type (type-keyword)
  "Convert a CFFI type keyword to an ALIEN type."
  (ecase type-keyword
    (:char               'char)
    (:unsigned-char      'unsigned-char)
    (:short              'short)
    (:unsigned-short     'unsigned-short)
    (:int                'int)
    (:unsigned-int       'unsigned-int)
    (:long               'long)
    (:unsigned-long      'unsigned-long)
    (:long-long          '(signed 64))
    (:unsigned-long-long '(unsigned 64))
    (:float              'single-float)
    (:double             'double-float)
    (:pointer            'system-area-pointer)
    (:void               'void)))

(defun %foreign-type-size (type-keyword)
  "Return the size in bytes of a foreign type."
  (/ (alien-internals:alien-type-bits
      (alien-internals:parse-alien-type
       (convert-foreign-type type-keyword))) 8))

(defun %foreign-type-alignment (type-keyword)
  "Return the alignment in bytes of a foreign type."
  (/ (alien-internals:alien-type-alignment
      (alien-internals:parse-alien-type
       (convert-foreign-type type-keyword))) 8))

(defun foreign-funcall-type-and-args (args)
  "Return an ALIEN function type for ARGS."
  (let ((return-type nil))
    (loop for (type arg) on args by #'cddr
          if arg collect (convert-foreign-type type) into types
          and collect arg into fargs
          else do (setf return-type (convert-foreign-type type))
          finally (return (values types fargs return-type)))))

(defmacro %%foreign-funcall (name types fargs rettype)
  "Internal guts of %FOREIGN-FUNCALL."
  `(alien-funcall
    (extern-alien ,name (function ,rettype ,@types))
    ,@fargs))

(defmacro %foreign-funcall (name args &key library calling-convention)
  "Perform a foreign function call, document it more later."
  (declare (ignore library calling-convention))
  (multiple-value-bind (types fargs rettype)
      (foreign-funcall-type-and-args args)
    `(%%foreign-funcall ,name ,types ,fargs ,rettype)))

(defmacro %foreign-funcall-pointer (ptr args &key calling-convention)
  "Funcall a pointer to a foreign function."
  (declare (ignore calling-convention))
  (multiple-value-bind (types fargs rettype)
      (foreign-funcall-type-and-args args)
    (with-unique-names (function)
      `(with-alien ((,function (* (function ,rettype ,@types)) ,ptr))
         (alien-funcall ,function ,@fargs)))))

;;;# Callbacks

(defvar *callbacks* (make-hash-table))

;;; Create a package to contain the symbols for callback functions.  We
;;; want to redefine callbacks with the same symbol so the internal data
;;; structures are reused.
(defpackage #:cffi-callbacks
  (:use))

;;; Intern a symbol in the CFFI-CALLBACKS package used to name the internal
;;; callback for NAME.
(eval-when (:compile-toplevel :load-toplevel :execute)
  (defun intern-callback (name)
    (intern (format nil "~A::~A" (package-name (symbol-package name))
                    (symbol-name name))
            '#:cffi-callbacks)))

(defmacro %defcallback (name rettype arg-names arg-types body
                        &key calling-convention)
  (declare (ignore calling-convention))
  (let ((cb-name (intern-callback name)))
    `(progn
       (def-callback ,cb-name
           (,(convert-foreign-type rettype)
             ,@(mapcar (lambda (sym type)
                         (list sym (convert-foreign-type type)))
                       arg-names arg-types))
         ,body)
       (setf (gethash ',name *callbacks*) (callback ,cb-name)))))

(defun %callback (name)
  (multiple-value-bind (pointer winp)
      (gethash name *callbacks*)
    (unless winp
      (error "Undefined callback: ~S" name))
    pointer))

;;; CMUCL makes new callback trampolines when it reloads, so we need
;;; to update CFFI's copies.
(defun reset-callbacks ()
  (loop for k being the hash-keys of *callbacks*
        do (setf (gethash k *callbacks*)
                 (alien::symbol-trampoline (intern-callback k)))))

;; Needs to be after cmucl's restore-callbacks, so put at the end...
(unless (member 'reset-callbacks ext:*after-save-initializations*)
  (setf ext:*after-save-initializations*
        (append ext:*after-save-initializations* (list 'reset-callbacks))))

;;;# Loading and Closing Foreign Libraries

;;; Work-around for compiling ffi code without loading the
;;; respective library at compile-time.
(setf c::top-level-lambda-max 0)

(defun %load-foreign-library (name path)
  "Load the foreign library NAME."
  ;; On some platforms SYS::LOAD-OBJECT-FILE signals an error when
  ;; loading fails, but on others (Linux for instance) it returns
  ;; two values: NIL and an error string.
  (declare (ignore name))
  (multiple-value-bind (ret message)
      (sys::load-object-file path)
    (cond
      ;; Loading failed.
      ((stringp message) (error "~A" message))
      ;; The library was already loaded.
      ((null ret) (cdr (rassoc path sys::*global-table* :test #'string=)))
      ;; The library has been loaded, but since SYS::LOAD-OBJECT-FILE
      ;; returns an alist of *all* loaded libraries along with their addresses
      ;; we return only the handler associated with the library just loaded.
      (t (cdr (rassoc path ret :test #'string=))))))

;;; XXX: doesn't work on Darwin; does not check for errors. I suppose we'd
;;; want something like SBCL's dlclose-or-lose in foreign-load.lisp:66
(defun %close-foreign-library (handler)
  "Closes a foreign library."
  (let ((lib (rassoc (ext:unix-namestring handler) sys::*global-table*
                     :test #'string=)))
    (sys::dlclose (car lib))
    (setf (car lib) (sys:int-sap 0))))

(defun native-namestring (pathname)
  ;; UNIX-NAMESTRING seems to be buggy?
  ;; (ext:unix-namestring #p"/tmp/foo bar baz/bar") => NIL
  #-(and) (ext:unix-namestring pathname)
  (namestring pathname))

;;;# Foreign Globals

(defun %foreign-symbol-pointer (name library)
  "Returns a pointer to a foreign symbol NAME."
  (declare (ignore library))
  (let ((address (sys:alternate-get-global-address
                  (vm:extern-alien-name name))))
    (if (zerop address)
        nil
        (sys:int-sap address))))