;;; This is experimental code that uses the s-expression ;;; representation of a C/C++ library interface to generate Foreign ;;; Function Interface definitions for use with Kevin Rosenberg's ;;; UFFI. ;;; ;;; Written by Matthias Koeppe (eval-when (:compile-toplevel :load-toplevel :execute) (require 'port) ; from CLOCC (require 'uffi)) (in-package :cl-user) ;; Interaction with the SWIG binary (defvar *swig-source-directory* #p"/home/mkoeppe/s/swig1.3/") (defvar *swig-program* (merge-pathnames "preinst-swig" *swig-source-directory*)) (defun run-swig (swig-interface-file-name &key directory-search-list module ignore-errors c++) (let ((temp-file-name "/tmp/swig.lsp")) (let ((process (port:run-prog (namestring *swig-program*) :output t :args `(,@(and c++ '("-c++")) "-sexp" ,@(mapcar (lambda (dir) (concatenate 'string "-I" (namestring dir))) directory-search-list) ,@(and module `("-module" ,module)) "-o" ,temp-file-name ,(namestring swig-interface-file-name))))) #+cmu (unless (or (zerop (ext:process-exit-code process)) ignore-errors) (error "Process swig exited abnormally")) (with-open-file (s temp-file-name) (read s))))) ;; Type system (defun parse-swigtype (type-string &key start end junk-ok) "Parse TYPE-STRING as SWIG's internal representation of C/C++ types. Return two values: The type description (an improper list) and the terminating index into TYPE-STRING." ;; SWIG's internal representation is described in Source/Swig/stype.c (unless start (setq start 0)) (unless end (setq end (length type-string))) (flet ((prefix-match (prefix) (let ((position (mismatch prefix type-string :start2 start :end2 end))) (or (not position) (= position (length prefix))))) (bad-type-error (reason) (error "Bad SWIG type (~A): ~A" reason (subseq type-string start end))) (type-char (index) (and (< index (length type-string)) (char type-string index))) (cons-and-recurse (prefix start end) (multiple-value-bind (type-description index) (parse-swigtype type-string :start start :end end :junk-ok junk-ok) (values (cons prefix type-description) index)))) (cond ((prefix-match "p.") ; pointer (cons-and-recurse '* (+ start 2) end)) ((prefix-match "r.") ; C++ reference (cons-and-recurse '& (+ start 2) end)) ((prefix-match "a(") ; array (let ((closing-paren (position #\) type-string :start (+ start 2) :end end))) (unless closing-paren (bad-type-error "missing right paren")) (unless (eql (type-char (+ closing-paren 1)) #\.) (bad-type-error "missing dot")) (cons-and-recurse (list 'ARRAY (subseq type-string (+ start 2) closing-paren)) (+ closing-paren 2) end))) ((prefix-match "q(") ; qualifier (const, volatile) (let ((closing-paren (position #\) type-string :start (+ start 2) :end end))) (unless closing-paren (bad-type-error "missing right paren")) (unless (eql (type-char (+ closing-paren 1)) #\.) (bad-type-error "missing dot")) (cons-and-recurse (list 'QUALIFIER (subseq type-string (+ start 2) closing-paren)) (+ closing-paren 2) end))) ((prefix-match "m(") ; C++ member pointer (multiple-value-bind (class-type class-end-index) (parse-swigtype type-string :junk-ok t :start (+ start 2) :end end) (unless (eql (type-char class-end-index) #\)) (bad-type-error "missing right paren")) (unless (eql (type-char (+ class-end-index 1)) #\.) (bad-type-error "missing dot")) (cons-and-recurse (list 'MEMBER-POINTER class-type) (+ class-end-index 2) end))) ((prefix-match "f(") ; function (loop with index = (+ start 2) until (eql (type-char index) #\)) collect (multiple-value-bind (arg-type arg-end-index) (parse-swigtype type-string :junk-ok t :start index :end end) (case (type-char arg-end-index) (#\, (setq index (+ arg-end-index 1))) (#\) (setq index arg-end-index)) (otherwise (bad-type-error "comma or right paren expected"))) arg-type) into arg-types finally (unless (eql (type-char (+ index 1)) #\.) (bad-type-error "missing dot")) (return (cons-and-recurse (cons 'FUNCTION arg-types) (+ index 2) end)))) ((prefix-match "v(") ;varargs (let ((closing-paren (position #\) type-string :start (+ start 2) :end end))) (unless closing-paren (bad-type-error "missing right paren")) (values (list 'VARARGS (subseq type-string (+ start 2) closing-paren)) (+ closing-paren 1)))) (t (let ((junk-position (position-if (lambda (char) (member char '(#\, #\( #\) #\.))) type-string :start start :end end))) (cond (junk-position ; found junk (unless junk-ok (bad-type-error "trailing junk")) (values (subseq type-string start junk-position) junk-position)) (t (values (subseq type-string start end) end)))))))) (defun swigtype-function-p (swigtype) "Check whether SWIGTYPE designates a function. If so, the second value is the list of argument types, and the third value is the return type." (if (and (consp swigtype) (consp (first swigtype)) (eql (first (first swigtype)) 'FUNCTION)) (values t (rest (first swigtype)) (rest swigtype)) (values nil nil nil))) ;; UFFI (defvar *uffi-definitions* '()) (defconstant *uffi-default-primitive-type-alist* '(("char" . :char) ("unsigned char" . :unsigned-byte) ("signed char" . :byte) ("short" . :short) ("signed short" . :short) ("unsigned short" . :unsigned-short) ("int" . :int) ("signed int" . :int) ("unsigned int" . :unsigned-int) ("long" . :long) ("signed long" . :long) ("unsigned long" . :unsigned-long) ("float" . :float) ("double" . :double) ((* . "char") . :cstring) ((* . "void") . :pointer-void) ("void" . :void))) (defvar *uffi-primitive-type-alist* *uffi-default-primitive-type-alist*) (defun uffi-type-spec (type-list) "Return the UFFI type spec equivalent to TYPE-LIST, or NIL if there is no representation." (let ((primitive-type-pair (assoc type-list *uffi-primitive-type-alist* :test 'equal))) (cond (primitive-type-pair (cdr primitive-type-pair)) ((and (consp type-list) (eql (first type-list) '*)) (let ((base-type-spec (uffi-type-spec (rest type-list)))) (cond ((not base-type-spec) :pointer-void) (t (list '* base-type-spec))))) (t nil)))) ;; Parse tree (defvar *uffi-output* nil) (defun emit-uffi-definition (uffi-definition) (format *uffi-output* "~&~S~%" uffi-definition) (push uffi-definition *uffi-definitions*)) (defun make-cl-symbol (c-identifier &key uninterned) (let ((name (substitute #\- #\_ (string-upcase c-identifier)))) (if uninterned (make-symbol name) (intern name)))) (defvar *class-scope* '() "A stack of names of nested C++ classes.") (defvar *struct-fields* '()) (defvar *linkage* :C "NIL or :C") (defgeneric handle-node (node-type &key &allow-other-keys) (:documentation "Handle a node of SWIG's parse tree of a C/C++ program")) (defmethod handle-node ((node-type t) &key &allow-other-keys) ;; do nothing for unknown node types nil) (defmethod handle-node ((node-type (eql 'cdecl)) &key name decl storage parms type &allow-other-keys) (let ((swigtype (parse-swigtype (concatenate 'string decl type)))) (let ((*print-pretty* nil) ; or FUNCTION would be printed as #' by cmucl (*print-circle* t)) (format *uffi-output* "~&;; C Declaration: ~A ~A ~A ~A~%;; with-parms ~W~%;; of-type ~W~%" storage type name decl parms swigtype)) (multiple-value-bind (function-p arg-swigtype-list return-swigtype) (swigtype-function-p swigtype) (declare (ignore arg-swigtype-list)) (cond ((and (null *class-scope*) function-p (or (eql *linkage* :c) (string= storage "externc"))) ;; ordinary top-level function with C linkage (let ((argnum 0) (argname-list '())) (flet ((unique-argname (name) ;; Sometimes the functions in SWIG interfaces ;; do not have unique names. Make them unique ;; by adding a suffix. Also avoid symbols ;; that are specially bound. (unless name (setq name (format nil "arg~D" argnum))) (let ((argname (make-cl-symbol name))) (when (boundp argname) ;specially bound (setq argname (make-cl-symbol name :uninterned t))) (push argname argname-list) argname))) (let ((uffi-arg-list (mapcan (lambda (param) (incf argnum) (destructuring-bind (&key name type &allow-other-keys) param (let ((uffi-type (uffi-type-spec (parse-swigtype type)))) (cond ((not uffi-type) (format *uffi-output* "~&;; Warning: Cannot handle type ~S of argument `~A'~%" type name) (return-from handle-node)) ((eq uffi-type :void) '()) (t (let ((symbol (unique-argname name))) (list `(,symbol ,uffi-type)))))))) parms)) (uffi-return-type (uffi-type-spec return-swigtype))) (unless uffi-return-type (format *uffi-output* "~&;; Warning: Cannot handle return type `~S'~%" return-swigtype) (return-from handle-node)) (emit-uffi-definition `(UFFI:DEF-FUNCTION ,name ,uffi-arg-list :RETURNING ,uffi-return-type)))))) ((and (not (null *class-scope*)) (null (rest *class-scope*)) (not function-p)) ; class/struct member (no nested structs) (let ((uffi-type (uffi-type-spec swigtype))) (unless uffi-type (format *uffi-output* "~&;; Warning: Cannot handle type ~S of struct field `~A'~%" type name) (return-from handle-node)) (push `(,(make-cl-symbol name) ,uffi-type) *struct-fields*))))))) (defmethod handle-node ((node-type (eql 'class)) &key name children kind &allow-other-keys) (format *uffi-output* "~&;; Class ~A~%" name) (let ((*class-scope* (cons name *class-scope*)) (*struct-fields* '())) (dolist (child children) (apply 'handle-node child)) (emit-uffi-definition `(,(if (string= kind "union") 'UFFI:DEF-UNION 'UFFI:DEF-STRUCT) ,(make-cl-symbol name) ,@(nreverse *struct-fields*))))) (defmethod handle-node ((node-type (eql 'top)) &key children &allow-other-keys) (dolist (child children) (apply 'handle-node child))) (defmethod handle-node ((node-type (eql 'include)) &key name children &allow-other-keys) (format *uffi-output* ";; INCLUDE ~A~%" name) (dolist (child children) (apply 'handle-node child))) (defmethod handle-node ((node-type (eql 'extern)) &key name children &allow-other-keys) (format *uffi-output* ";; EXTERN \"C\" ~A~%" name) (let ((*linkage* :c)) (dolist (child children) (apply 'handle-node child)))) ;;(defun compute-uffi-definitions (swig-interface) ;; (let ((*uffi-definitions* '())) ;; (handle-node swig-interface) ;; *uffi-definitions*)) ;; Test instances #|| #+ignore (defvar *gifplot-interface* (run-swig (merge-pathnames "Examples/GIFPlot/Interface/gifplot.i" *swig-source-directory*) :directory-search-list (list (merge-pathnames "Examples/GIFPlot/Interface/" *swig-source-directory*)))) (defvar *simple-gifplot-interface* (run-swig (merge-pathnames "Examples/GIFPlot/Include/gifplot.h" *swig-source-directory*) :directory-search-list (list (merge-pathnames "Examples/GIFPlot/Interface/" *swig-source-directory*)) :module "gifplot")) (defvar *cplex-glue-directory* #p"/home/mkoeppe/cvs/cplex-glue/") (defvar *cplex-glue-interface* (run-swig (merge-pathnames "cplex.i" *cplex-glue-directory*) :directory-search-list (list (merge-pathnames "Lib/guile" *swig-source-directory*) *cplex-glue-directory*) :ignore-errors t)) (require 'uffi) ;;(let ((*uffi-primitive-type-alist* (cons '("Pixel" . :unsigned-int) *uffi-default-primitive-type-alist*))) ;; (eval (cons 'progn (compute-uffi-definitions *simple-gifplot-interface*)))) (with-open-file (f "/tmp/swig-uffi.lisp" :direction :output :if-exists :supersede) (let ((*uffi-definitions* '()) (*uffi-output* f) (*uffi-primitive-type-alist* (cons '("Pixel" . :unsigned-int) *uffi-default-primitive-type-alist*))) (apply 'handle-node *simple-gifplot-interface*))) #+cplex (with-open-file (f "/tmp/swig-uffi.lisp" :direction :output) (let ((*uffi-definitions* '()) (*uffi-output* f) (*uffi-primitive-type-alist* (cons '("Pixel" . :unsigned-int) *uffi-default-primitive-type-alist*))) (apply 'handle-node *cplex-glue-interface*))) (compile-file "/tmp/swig-uffi.lisp") (uffi:load-foreign-library (merge-pathnames "Examples/GIFPlot/libgifplot.a" *swig-source-directory*)) (load "/tmp/swig-uffi.lisp") (load (merge-pathnames "Examples/GIFPlot/Common-Lisp/full/runme.lisp" *swig-source-directory*)) (action (namestring (merge-pathnames "Examples/GIFPlot/Common-Lisp/full/cmap" *swig-source-directory*))) ||# ;;; Link to SWIG itself #|| (defparameter *c++-compiler* "g++") (defun stdc++-library (&key env) (let ((error-output (make-string-output-stream))) (let ((name-output (make-string-output-stream))) (let ((proc (ext:run-program *c++-compiler* '("-print-file-name=libstdc++.so") :env env :input nil :output name-output :error error-output))) (unless proc (error "Could not run ~A" *c++-compiler*)) (unless (zerop (ext:process-exit-code proc)) (system:serve-all-events 0) (error "~A failed:~%~A" *c++-compiler* (get-output-stream-string error-output)))) (string-right-trim '(#\Newline) (get-output-stream-string name-output))))) (defvar *swig-interface* nil) (defvar *swig-uffi-pathname* #p"/tmp/swig-uffi.lisp") (defun link-swig () (setq *swig-interface* (run-swig (merge-pathnames "Source/swig.i" *swig-source-directory*) :directory-search-list (list (merge-pathnames "Source/" *swig-source-directory*)) :module "swig" :ignore-errors t :c++ t)) (with-open-file (f *swig-uffi-pathname* :direction :output) (let ((*linkage* :c++) (*uffi-definitions* '()) (*uffi-output* f) (*uffi-primitive-type-alist* *uffi-default-primitive-type-alist*)) (apply 'handle-node *swig-interface*))) (compile-file *swig-uffi-pathname*) (alien:load-foreign (merge-pathnames "Source/libswig.a" *swig-source-directory*) :libraries (list (stdc++-library))) ;; FIXME: UFFI stuffes a "-l" in front of the passed library names ;; (uffi:load-foreign-library (merge-pathnames "Source/libswig.a" ;; *swig-source-directory*) ;; :supporting-libraries ;; (list (stdc++-library))) (load (compile-file-pathname *swig-uffi-pathname*))) ||# ;;;; TODO: ;; * How to do type lookups? Is everything important that SWIG knows ;; about the types written out? What to make of typemaps? ;; ;; * Wrapped functions should probably automatically COERCE their ;; arguments (as of type DOUBLE-FLOAT), to make the functions more ;; flexible? ;; ;; * Why are the functions created by FFI interpreted? ;; ;; * We can't deal with more complicated structs and C++ classes ;; directly with the FFI; we have to emit SWIG wrappers that access ;; those classes. ;; ;; * A CLOS layer where structure fields are mapped as slots. It ;; looks like we need MOP functions to implement this. ;; ;; * Maybe modify SWIG so that key-value hashes are distinguished from ;; value-value hashes.