diff -ub elib-1.0.orig/avltree.el elib-1.0/avltree.el --- elib-1.0.orig/avltree.el 1995-12-10 16:50:53.000000000 -0800 +++ elib-1.0/avltree.el 2008-06-22 15:31:48.000000000 -0700 @@ -69,19 +69,19 @@ (defmacro elib-avl-node-create (left right data balance) ;; Create and return an avl-tree node. - (` (vector (, left) (, right) (, data) (, balance)))) + `(vector ,left ,right ,data ,balance)) (defmacro elib-avl-node-balance (node) ;; Return the balance field of a node. - (` (aref (, node) 3))) + `(aref ,node 3)) (defmacro elib-avl-node-set-balance (node newbal) ;; Set the balance field of a node. - (` (aset (, node) 3 (, newbal)))) + `(aset ,node 3 ,newbal)) @@ -96,20 +96,20 @@ (defmacro elib-avl-root (tree) ;; Return the root node for an avl-tree. INTERNAL USE ONLY. - (` (elib-node-left (car (cdr (, tree)))))) + `(elib-node-left (car (cdr ,tree)))) (defmacro elib-avl-dummyroot (tree) ;; Return the dummy node of an avl-tree. INTERNAL USE ONLY. - (` (car (cdr (, tree))))) + `(car (cdr ,tree))) (defmacro elib-avl-cmpfun (tree) ;; Return the compare function of AVL tree TREE. INTERNAL USE ONLY. - (` (cdr (cdr (, tree))))) + `(cdr (cdr ,tree))) ;; ---------------------------------------------------------------- @@ -412,20 +412,20 @@ ;; INTERNAL USE ONLY. (let ((node root) - (stack (elib-stack-create)) + (stack (stack-create)) (go-left t)) - (elib-stack-push stack nil) + (stack-push stack nil) (while node (if (and go-left (elib-node-left node)) (progn ; Do the left subtree first. - (elib-stack-push stack node) + (stack-push stack node) (setq node (elib-node-left node))) (funcall map-function node) ; Apply the function... (if (elib-node-right node) ; and do the right subtree. (setq node (elib-node-right node) go-left t) - (setq node (elib-stack-pop stack) + (setq node (stack-pop stack) go-left nil)))))) diff -ub elib-1.0.orig/bintree.el elib-1.0/bintree.el --- elib-1.0.orig/bintree.el 1995-12-10 16:50:53.000000000 -0800 +++ elib-1.0/bintree.el 2008-06-22 15:28:45.000000000 -0700 @@ -64,19 +64,19 @@ (defmacro elib-bintree-root (tree) ;; Return the root node for a binary tree. INTERNAL USE ONLY. - (` (elib-node-left (car (cdr (, tree)))))) + `(elib-node-left (car (cdr ,tree)))) (defmacro elib-bintree-dummyroot (tree) ;; Return the dummy node of a binary tree. INTERNAL USE ONLY. - (` (car (cdr (, tree))))) + `(car (cdr ,tree))) (defmacro elib-bintree-cmpfun (tree) ;; Return the compare function of binary tree TREE. INTERNAL USE ONLY." - (` (cdr (cdr (, tree))))) + `(cdr (cdr ,tree))) @@ -90,20 +90,20 @@ ;; INTERNAL USE ONLY." (let ((node root) - (stack (elib-stack-create)) + (stack (stack-create)) (go-left t)) - (elib-stack-push stack nil) + (stack-push stack nil) (while node (if (and go-left (elib-node-left node)) (progn ; Do the left subtree first. - (elib-stack-push stack node) + (stack-push stack node) (setq node (elib-node-left node))) (funcall map-function node) ; Apply the function... (if (elib-node-right node) ; and do the right subtree. (setq node (elib-node-right node) go-left t) - (setq node (elib-stack-pop stack) + (setq node (stack-pop stack) go-left nil)))))) diff -ub elib-1.0.orig/cookie.el elib-1.0/cookie.el --- elib-1.0.orig/cookie.el 1995-12-10 16:50:54.000000000 -0800 +++ elib-1.0/cookie.el 2008-06-22 15:38:55.000000000 -0700 @@ -139,13 +139,13 @@ (let ((old-buffer (make-symbol "old-buffer")) (hnd (make-symbol "collection"))) - (` (let* (((, old-buffer) (current-buffer)) - ((, hnd) (, collection)) - (dll (elib-collection->dll (, hnd)))) - (set-buffer (elib-collection->buffer (, hnd))) + `(let* ((,old-buffer (current-buffer)) + (,hnd ,collection) + (dll (elib-collection->dll ,hnd))) + (set-buffer (elib-collection->buffer ,hnd)) (unwind-protect - (progn (,@ forms)) - (set-buffer (, old-buffer))))))) + (progn ,@forms) + (set-buffer ,old-buffer))))) (put 'elib-set-buffer-bind-dll-let* 'lisp-indent-hook 2) @@ -160,14 +160,14 @@ (let ((old-buffer (make-symbol "old-buffer")) (hnd (make-symbol "collection"))) - (` (let* (((, old-buffer) (current-buffer)) - ((, hnd) (, collection)) - (dll (elib-collection->dll (, hnd))) - (,@ varlist)) - (set-buffer (elib-collection->buffer (, hnd))) + `(let* ((,old-buffer (current-buffer)) + (,hnd ,collection) + (dll (elib-collection->dll ,hnd)) + ,@varlist) + (set-buffer (elib-collection->buffer ,hnd)) (unwind-protect - (progn (,@ forms)) - (set-buffer (, old-buffer))))))) + (progn ,@forms) + (set-buffer ,old-buffer))))) (defmacro elib-filter-hf (collection tin) @@ -179,12 +179,12 @@ (let ((tempvar (make-symbol "tin")) (tmpcoll (make-symbol "tmpcollection"))) - (` (let (((, tempvar) (, tin)) - ((, tmpcoll) (, collection))) - (if (or (eq (, tempvar) (elib-collection->header (, tmpcoll))) - (eq (, tempvar) (elib-collection->footer (, tmpcoll)))) + `(let ((,tempvar ,tin) + (,tmpcoll ,collection)) + (if (or (eq ,tempvar (elib-collection->header ,tmpcoll)) + (eq ,tempvar (elib-collection->footer ,tmpcoll))) nil - (, tempvar)))))) + ,tempvar)))) diff -ub elib-1.0.orig/dll-debug.el elib-1.0/dll-debug.el --- elib-1.0.orig/dll-debug.el 1995-12-10 16:50:54.000000000 -0800 +++ elib-1.0/dll-debug.el 2008-06-22 15:25:14.000000000 -0700 @@ -74,9 +74,9 @@ (defmacro dll-insert-after (node element) (let ((node-v (make-symbol "node")) (element-v (make-symbol "element"))) - (` (let (((, node-v) (, node)) - ((, element-v) (, element))) - (setcdr (, node-v) (cons (, element-v) (cdr (, node-v)))))))) + `(let ((,node-v ,node) + (,element-v ,element)) + (setcdr ,node-v (cons ,element-v (cdr ,node-v)))))) ;;; =================================================================== ;;; The public functions which operate on doubly linked lists. @@ -86,7 +86,7 @@ "Get the element of a NODE in a doubly linked list DLL. Args: DLL NODE." - (` (car (, node)))) + `(car ,node)) (defun dll-create () diff -ub elib-1.0.orig/dll.el elib-1.0/dll.el --- elib-1.0.orig/dll.el 1995-12-10 16:50:54.000000000 -0800 +++ elib-1.0/dll.el 2008-06-22 15:22:58.000000000 -0700 @@ -89,7 +89,7 @@ "Get the element of a NODE in a doubly linked list DLL. Args: DLL NODE." - (` (elib-node-data (, node)))) + `(elib-node-data ,node)) (defun dll-create () diff -ub elib-1.0.orig/elib-node.el elib-1.0/elib-node.el --- elib-1.0.orig/elib-node.el 1995-12-10 16:50:53.000000000 -0800 +++ elib-1.0/elib-node.el 2008-06-22 15:21:46.000000000 -0700 @@ -49,42 +49,42 @@ (defmacro elib-node-create (left right data) ;; Create a tree node from LEFT, RIGHT and DATA. - (` (vector (, left) (, right) (, data)))) + `(vector ,left ,right ,data)) (defmacro elib-node-left (node) ;; Return the left pointer of NODE. - (` (aref (, node) 0))) + `(aref ,node 0)) (defmacro elib-node-right (node) ;; Return the right pointer of NODE. - (` (aref (, node) 1))) + `(aref ,node 1)) (defmacro elib-node-data (node) ;; Return the data of NODE. - (` (aref (, node) 2))) + `(aref ,node 2)) (defmacro elib-node-set-left (node newleft) ;; Set the left pointer of NODE to NEWLEFT. - (` (aset (, node) 0 (, newleft)))) + `(aset ,node 0 ,newleft)) (defmacro elib-node-set-right (node newright) ;; Set the right pointer of NODE to NEWRIGHT. - (` (aset (, node) 1 (, newright)))) + `(aset ,node 1 ,newright)) (defmacro elib-node-set-data (node newdata) ;; Set the data of NODE to NEWDATA. - (` (aset (, node) 2 (, newdata)))) + `(aset ,node 2 ,newdata)) @@ -94,7 +94,7 @@ ;; ;; NODE is the node, and BRANCH is the branch. ;; 0 for left pointer, 1 for right pointer and 2 for the data." - (` (aref (, node) (, branch)))) + `(aref ,node ,branch)) (defmacro elib-node-set-branch (node branch newval) @@ -104,6 +104,6 @@ ;; NODE is the node, and BRANCH is the branch. ;; 0 for left pointer, 1 for the right pointer and 2 for the data. ;; NEWVAL is new value of the branch." - (` (aset (, node) (, branch) (, newval)))) + `(aset ,node ,branch ,newval)) ;;; elib-node.el ends here. Only in elib-1.0: elib.info diff -ub elib-1.0.orig/queue-m.el elib-1.0/queue-m.el --- elib-1.0.orig/queue-m.el 1995-12-10 16:50:53.000000000 -0800 +++ elib-1.0/queue-m.el 2008-06-22 15:13:41.000000000 -0700 @@ -54,12 +54,12 @@ (defmacro queue-create () "Create an empty fifo queue." - (` (cons 'QUEUE (cons nil nil)))) + `(cons 'QUEUE (cons nil nil))) (defmacro queue-p (queue) "Return t if QUEUE is a queue, otherwise return nil." - (` (eq (car-safe (, queue)) 'QUEUE))) + `(eq (car-safe ,queue) 'QUEUE)) (defun queue-enqueue (queue element) @@ -91,13 +91,13 @@ (defmacro queue-empty (queue) "Return t if QUEUE is empty, otherwise return nil." - (` (null (car (cdr (, queue)))))) + `(null (car (cdr ,queue)))) (defmacro queue-first (queue) "Return the first element of QUEUE or nil if it is empty. The element is not removed." - (` (car-safe (car (cdr (, queue)))))) + `(car-safe (car (cdr ,queue)))) (defmacro queue-nth (queue n) @@ -106,18 +106,18 @@ If the length of the queue is less than N, return nil. The oldest element (the first one) has number 0." - (` (nth (, n) (car (cdr (, queue)))))) + `(nth ,n (car (cdr ,queue)))) (defmacro queue-last (queue) "Return the last element of QUEUE or nil if it is empty." - (` (car-safe (cdr (cdr (, queue)))))) + `(car-safe (cdr (cdr ,queue)))) (defmacro queue-all (queue) "Return a list of all elements of QUEUE or nil if it is empty. The oldest element in the queue is the first in the list." - (` (car (cdr (, queue))))) + `(car (cdr ,queue))) (defun queue-copy (queue) @@ -131,11 +131,11 @@ (defmacro queue-length (queue) "Return the number of elements in QUEUE." - (` (length (car (cdr (, queue)))))) + `(length (car (cdr ,queue)))) (defmacro queue-clear (queue) "Remove all elements from QUEUE." - (` (setcdr (, queue) (cons nil nil)))) + `(setcdr ,queue (cons nil nil))) ;;; queue-m.el ends here diff -ub elib-1.0.orig/read.el elib-1.0/read.el --- elib-1.0.orig/read.el 1995-12-10 16:50:54.000000000 -0800 +++ elib-1.0/read.el 2008-06-22 15:40:38.000000000 -0700 @@ -61,7 +61,7 @@ numdefault) (setq number numdefault)) ((string-match "\\`[0-9]+\\'" numstr) - (setq number (string-to-int numstr))) + (setq number (string-to-number numstr))) (t (beep)))) number)) diff -ub elib-1.0.orig/stack-m.el elib-1.0/stack-m.el --- elib-1.0.orig/stack-m.el 1995-12-10 16:50:52.000000000 -0800 +++ elib-1.0/stack-m.el 2008-06-22 15:10:48.000000000 -0700 @@ -51,36 +51,36 @@ (defmacro stack-create () "Create an empty lifo stack." - (` (cons 'STACK nil))) + `(cons 'STACK nil)) (defmacro stack-p (stack) "Return t if STACK is a stack, otherwise return nil." - (` (eq (car-safe (, stack)) 'STACK))) + `(eq (car-safe ,stack) 'STACK)) (defmacro stack-push (stack element) "Push an element onto the stack. Args: STACK ELEMENT" - (` (setcdr (, stack) (cons (, element) (cdr (, stack)))))) + `(setcdr ,stack (cons ,element (cdr ,stack)))) (defmacro stack-pop (stack) "Remove the topmost element from STACK and return it. If the stack is empty, return nil." - (` (prog1 - (car-safe (cdr (, stack))) - (setcdr (, stack) (cdr-safe (cdr (, stack))))))) + `(prog1 + (car-safe (cdr ,stack)) + (setcdr ,stack (cdr-safe (cdr ,stack))))) (defmacro stack-empty (stack) "Return t if STACK is empty, otherwise return nil." - (` (null (cdr (, stack))))) + `(null (cdr ,stack))) (defmacro stack-top (stack) "Return the topmost element of STACK or nil if it is empty." - (` (car-safe (cdr (, stack))))) + `(car-safe (cdr ,stack))) (defmacro stack-nth (stack n) @@ -89,28 +89,28 @@ If the length of the stack is less than N, return nil. The top stack element has number 0." - (` (nth (, n) (cdr (, stack))))) + `(nth ,n (cdr ,stack))) (defmacro stack-all (stack) "Return a list of all entries in STACK. The element last pushed is first in the list." - (` (cdr (, stack)))) + `(cdr ,stack)) (defmacro stack-copy (stack) "Return a copy of STACK. All entries in STACK are also copied." - (` (cons 'STACK (copy-sequence (cdr (, stack)))))) + `(cons 'STACK (copy-sequence (cdr ,stack)))) (defmacro stack-length (stack) "Return the number of elements on STACK." - (` (length (cdr (, stack))))) + `(length (cdr ,stack))) (defmacro stack-clear (stack) "Remove all elements from STACK." - (` (setcdr (, stack) nil))) + `(setcdr ,stack nil)) ;;; stack-m.el ends here