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The actual contents of the file can be viewed below.

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;;; -*- Mode: Lisp; Package: Xlib; Log: clx.log -*-

;; This file contains some of the system dependent code for CLX

;;;
;;;			 TEXAS INSTRUMENTS INCORPORATED
;;;				  P.O. BOX 2909
;;;			       AUSTIN, TEXAS 78769
;;;
;;; Copyright (C) 1987 Texas Instruments Incorporated.
;;;
;;; Permission is granted to any individual or institution to use, copy, modify,
;;; and distribute this software, provided that this complete copyright and
;;; permission notice is maintained, intact, in all copies and supporting
;;; documentation.
;;;
;;; Texas Instruments Incorporated provides this software "as is" without
;;; express or implied warranty.
;;;

(in-package :xlib)

(proclaim '(declaration array-register))


;;; The size of the output buffer.  Must be a multiple of 4.
(defparameter *output-buffer-size* 8192)

;;; Number of seconds to wait for a reply to a server request
(defparameter *reply-timeout* nil) 

(progn
  (defconstant +word-0+ 1)
  (defconstant +word-1+ 0)

  (defconstant +long-0+ 3)
  (defconstant +long-1+ 2)
  (defconstant +long-2+ 1)
  (defconstant +long-3+ 0))

;;; Set some compiler-options for often used code

(eval-when (:compile-toplevel :load-toplevel :execute)
  (defconstant +buffer-speed+ #+clx-debugging 1 #-clx-debugging 3
    "Speed compiler option for buffer code.")
  (defconstant +buffer-safety+ #+clx-debugging 3 #-clx-debugging 0
    "Safety compiler option for buffer code.")
  (defconstant +buffer-debug+ #+clx-debugging 2 #-clx-debugging 1
    "Debug compiler option for buffer code>")
  (defun declare-bufmac ()
    `(declare (optimize
	       (speed ,+buffer-speed+)
	       (safety ,+buffer-safety+)
	       (debug ,+buffer-debug+))))
  ;; It's my impression that in lucid there's some way to make a
  ;; declaration called fast-entry or something that causes a function
  ;; to not do some checking on args. Sadly, we have no lucid manuals
  ;; here.  If such a declaration is available, it would be a good
  ;; idea to make it here when +buffer-speed+ is 3 and +buffer-safety+
  ;; is 0.
  (defun declare-buffun ()
    `(declare (optimize
	       (speed ,+buffer-speed+)
	       (safety ,+buffer-safety+)
	       (debug ,+buffer-debug+)))))

(declaim (inline card8->int8 int8->card8
		 card16->int16 int16->card16
		 card32->int32 int32->card32))

(progn

(defun card8->int8 (x)
  (declare (type card8 x))
  (declare (clx-values int8))
  #.(declare-buffun)
  (the int8 (if (logbitp 7 x)
		(the int8 (- x #x100))
	      x)))

(defun int8->card8 (x)
  (declare (type int8 x))
  (declare (clx-values card8))
  #.(declare-buffun)
  (the card8 (ldb (byte 8 0) x)))

(defun card16->int16 (x)
  (declare (type card16 x))
  (declare (clx-values int16))
  #.(declare-buffun)
  (the int16 (if (logbitp 15 x)
		 (the int16 (- x #x10000))
		 x)))

(defun int16->card16 (x)
  (declare (type int16 x))
  (declare (clx-values card16))
  #.(declare-buffun)
  (the card16 (ldb (byte 16 0) x)))

(defun card32->int32 (x)
  (declare (type card32 x))
  (declare (clx-values int32))
  #.(declare-buffun)
  (the int32 (if (logbitp 31 x)
		 (the int32 (- x #x100000000))
		 x)))

(defun int32->card32 (x)
  (declare (type int32 x))
  (declare (clx-values card32))
  #.(declare-buffun)
  (the card32 (ldb (byte 32 0) x)))

)

(declaim (inline aref-card8 aset-card8 aref-int8 aset-int8))

(progn

(defun aref-card8 (a i)
  (declare (type buffer-bytes a)
	   (type array-index i))
  (declare (clx-values card8))
  #.(declare-buffun)
  (the card8 (aref a i)))

(defun aset-card8 (v a i)
  (declare (type card8 v)
	   (type buffer-bytes a)
	   (type array-index i))
  #.(declare-buffun)
  (setf (aref a i) v))

(defun aref-int8 (a i)
  (declare (type buffer-bytes a)
	   (type array-index i))
  (declare (clx-values int8))
  #.(declare-buffun)
  (card8->int8 (aref a i)))

(defun aset-int8 (v a i)
  (declare (type int8 v)
	   (type buffer-bytes a)
	   (type array-index i))
  #.(declare-buffun)
  (setf (aref a i) (int8->card8 v)))

)

(progn

(defun aref-card16 (a i)
  (declare (type buffer-bytes a)
	   (type array-index i))
  (declare (clx-values card16))
  #.(declare-buffun)
  (the card16
       (logior (the card16
		    (ash (the card8 (aref a (index+ i +word-1+))) 8))
	       (the card8
		    (aref a (index+ i +word-0+))))))

(defun aset-card16 (v a i)
  (declare (type card16 v)
	   (type buffer-bytes a)
	   (type array-index i))
  #.(declare-buffun)
  (setf (aref a (index+ i +word-1+)) (the card8 (ldb (byte 8 8) v))
	(aref a (index+ i +word-0+)) (the card8 (ldb (byte 8 0) v)))
  v)

(defun aref-int16 (a i)
  (declare (type buffer-bytes a)
	   (type array-index i))
  (declare (clx-values int16))
  #.(declare-buffun)
  (the int16
       (logior (the int16
		    (ash (the int8 (aref-int8 a (index+ i +word-1+))) 8))
	       (the card8
		    (aref a (index+ i +word-0+))))))

(defun aset-int16 (v a i)
  (declare (type int16 v)
	   (type buffer-bytes a)
	   (type array-index i))
  #.(declare-buffun)
  (setf (aref a (index+ i +word-1+)) (the card8 (ldb (byte 8 8) v))
	(aref a (index+ i +word-0+)) (the card8 (ldb (byte 8 0) v)))
  v)

(defun aref-card32 (a i)
  (declare (type buffer-bytes a)
	   (type array-index i))
  (declare (clx-values card32))
  #.(declare-buffun)
  (the card32
       (logior (the card32
		    (ash (the card8 (aref a (index+ i +long-3+))) 24))
	       (the card29
		    (ash (the card8 (aref a (index+ i +long-2+))) 16))
	       (the card16
		    (ash (the card8 (aref a (index+ i +long-1+))) 8))
	       (the card8
		    (aref a (index+ i +long-0+))))))

(defun aset-card32 (v a i)
  (declare (type card32 v)
	   (type buffer-bytes a)
	   (type array-index i))
  #.(declare-buffun)
  (setf (aref a (index+ i +long-3+)) (the card8 (ldb (byte 8 24) v))
	(aref a (index+ i +long-2+)) (the card8 (ldb (byte 8 16) v))
	(aref a (index+ i +long-1+)) (the card8 (ldb (byte 8 8) v))
	(aref a (index+ i +long-0+)) (the card8 (ldb (byte 8 0) v)))
  v)

(defun aref-int32 (a i)
  (declare (type buffer-bytes a)
	   (type array-index i))
  (declare (clx-values int32))
  #.(declare-buffun)
  (the int32
       (logior (the int32
		    (ash (the int8 (aref-int8 a (index+ i +long-3+))) 24))
	       (the card29
		    (ash (the card8 (aref a (index+ i +long-2+))) 16))
	       (the card16
		    (ash (the card8 (aref a (index+ i +long-1+))) 8))
	       (the card8
		    (aref a (index+ i +long-0+))))))

(defun aset-int32 (v a i)
  (declare (type int32 v)
	   (type buffer-bytes a)
	   (type array-index i))
  #.(declare-buffun)
  (setf (aref a (index+ i +long-3+)) (the card8 (ldb (byte 8 24) v))
	(aref a (index+ i +long-2+)) (the card8 (ldb (byte 8 16) v))
	(aref a (index+ i +long-1+)) (the card8 (ldb (byte 8 8) v))
	(aref a (index+ i +long-0+)) (the card8 (ldb (byte 8 0) v)))
  v)

(defun aref-card29 (a i)
  (declare (type buffer-bytes a)
	   (type array-index i))
  (declare (clx-values card29))
  #.(declare-buffun)
  (the card29
       (logior (the card29
		    (ash (the card8 (aref a (index+ i +long-3+))) 24))
	       (the card29
		    (ash (the card8 (aref a (index+ i +long-2+))) 16))
	       (the card16
		    (ash (the card8 (aref a (index+ i +long-1+))) 8))
	       (the card8
		    (aref a (index+ i +long-0+))))))

(defun aset-card29 (v a i)
  (declare (type card29 v)
	   (type buffer-bytes a)
	   (type array-index i))
  #.(declare-buffun)
  (setf (aref a (index+ i +long-3+)) (the card8 (ldb (byte 8 24) v))
	(aref a (index+ i +long-2+)) (the card8 (ldb (byte 8 16) v))
	(aref a (index+ i +long-1+)) (the card8 (ldb (byte 8 8) v))
	(aref a (index+ i +long-0+)) (the card8 (ldb (byte 8 0) v)))
  v)

)

(defsetf aref-card8 (a i) (v)
  `(aset-card8 ,v ,a ,i))

(defsetf aref-int8 (a i) (v)
  `(aset-int8 ,v ,a ,i))

(defsetf aref-card16 (a i) (v)
  `(aset-card16 ,v ,a ,i))

(defsetf aref-int16 (a i) (v)
  `(aset-int16 ,v ,a ,i))

(defsetf aref-card32 (a i) (v)
  `(aset-card32 ,v ,a ,i))

(defsetf aref-int32 (a i) (v)
  `(aset-int32 ,v ,a ,i))

(defsetf aref-card29 (a i) (v)
  `(aset-card29 ,v ,a ,i))

;;; Other random conversions

(defun rgb-val->card16 (value)
  ;; Short floats are good enough
  (declare (type rgb-val value))
  (declare (clx-values card16))
  #.(declare-buffun)
  ;; Convert VALUE from float to card16
  (the card16 (values (round (the rgb-val value) #.(/ 1.0s0 #xffff)))))

(defun card16->rgb-val (value) 
  ;; Short floats are good enough
  (declare (type card16 value))
  (declare (clx-values short-float))
  #.(declare-buffun)
  ;; Convert VALUE from card16 to float
  (the short-float (* (the card16 value) #.(/ 1.0s0 #xffff))))

(defun radians->int16 (value)
  ;; Short floats are good enough
  (declare (type angle value))
  (declare (clx-values int16))
  #.(declare-buffun)
  (the int16 (values (round (the angle value) #.(float (/ pi 180.0s0 64.0s0) 0.0s0)))))

(defun int16->radians (value)
  ;; Short floats are good enough
  (declare (type int16 value))
  (declare (clx-values short-float))
  #.(declare-buffun)
  (the short-float (* (the int16 value) #.(coerce (/ pi 180.0 64.0) 'short-float))))


;;-----------------------------------------------------------------------------
;; Character transformation
;;-----------------------------------------------------------------------------


;;; This stuff transforms chars to ascii codes in card8's and back.
;;; You might have to hack it a little to get it to work for your machine.

(declaim (inline char->card8 card8->char))

(macrolet ((char-translators ()
	     (let ((alist
		     `(
		       ;; The normal ascii codes for the control characters.
		       ,@`((#\Return . 13)
			   (#\Linefeed . 10)
			   (#\Rubout . 127)
			   (#\Page . 12)
			   (#\Tab . 9)
			   (#\Backspace . 8)
			   (#\Newline . 10)
			   (#\Space . 32))
		       
		       ;; The rest of the common lisp charater set with
                       ;; the normal ascii codes for them.
		       (#\! . 33) (#\" . 34) (#\# . 35) (#\$ . 36)
		       (#\% . 37) (#\& . 38) (#\' . 39) (#\( . 40)
		       (#\) . 41) (#\* . 42) (#\+ . 43) (#\, . 44)
		       (#\- . 45) (#\. . 46) (#\/ . 47) (#\0 . 48)
		       (#\1 . 49) (#\2 . 50) (#\3 . 51) (#\4 . 52)
		       (#\5 . 53) (#\6 . 54) (#\7 . 55) (#\8 . 56)
		       (#\9 . 57) (#\: . 58) (#\; . 59) (#\< . 60)
		       (#\= . 61) (#\> . 62) (#\? . 63) (#\@ . 64)
		       (#\A . 65) (#\B . 66) (#\C . 67) (#\D . 68)
		       (#\E . 69) (#\F . 70) (#\G . 71) (#\H . 72)
		       (#\I . 73) (#\J . 74) (#\K . 75) (#\L . 76)
		       (#\M . 77) (#\N . 78) (#\O . 79) (#\P . 80)
		       (#\Q . 81) (#\R . 82) (#\S . 83) (#\T . 84)
		       (#\U . 85) (#\V . 86) (#\W . 87) (#\X . 88)
		       (#\Y . 89) (#\Z . 90) (#\[ . 91) (#\\ . 92)
		       (#\] . 93) (#\^ . 94) (#\_ . 95) (#\` . 96)
		       (#\a . 97) (#\b . 98) (#\c . 99) (#\d . 100)
		       (#\e . 101) (#\f . 102) (#\g . 103) (#\h . 104)
		       (#\i . 105) (#\j . 106) (#\k . 107) (#\l . 108)
		       (#\m . 109) (#\n . 110) (#\o . 111) (#\p . 112)
		       (#\q . 113) (#\r . 114) (#\s . 115) (#\t . 116)
		       (#\u . 117) (#\v . 118) (#\w . 119) (#\x . 120)
		       (#\y . 121) (#\z . 122) (#\{ . 123) (#\| . 124)
		       (#\} . 125) (#\~ . 126))))
	       (cond ((dolist (pair alist nil)
			(when (not (= (char-code (car pair)) (cdr pair)))
			  (return t)))
		      `(progn
			 (defconstant *char-to-card8-translation-table*
				      ',(let ((array (make-array
						       (let ((max-char-code 255))
							 (dolist (pair alist)
							   (setq max-char-code
								 (max max-char-code
								      (char-code (car pair)))))
							 (1+ max-char-code))
						       :element-type 'card8)))
					  (dotimes (i (length array))
					    (setf (aref array i) (mod i 256)))
					  (dolist (pair alist)
					    (setf (aref array (char-code (car pair)))
						  (cdr pair)))
					  array))
			 (defconstant *card8-to-char-translation-table*
				      ',(let ((array (make-array 256)))
					  (dotimes (i (length array))
					    (setf (aref array i) (code-char i)))
					  (dolist (pair alist)
					    (setf (aref array (cdr pair)) (car pair)))
					  array))
			 (progn
  			   (defun char->card8 (char)
			     (declare (type base-char char))
			     #.(declare-buffun)
			     (the card8 (aref (the (simple-array card8 (*))
						   *char-to-card8-translation-table*)
					      (the array-index (char-code char)))))
			   (defun card8->char (card8)
			     (declare (type card8 card8))
			     #.(declare-buffun)
			     (the base-char
				  (or (aref (the simple-vector *card8-to-char-translation-table*)
					    card8)
				      (error "Invalid CHAR code ~D." card8))))
			   )
			 #+Genera
			 (progn
			   (defun char->card8 (char)
			     (declare lt:(side-effects reader reducible))
			     (aref *char-to-card8-translation-table* (char-code char)))
			   (defun card8->char (card8)
			     (declare lt:(side-effects reader reducible))
			     (aref *card8-to-char-translation-table* card8))
			   )
			 (dotimes (i 256)
			   (unless (= i (char->card8 (card8->char i)))
			     (warn "The card8->char mapping is not invertible through char->card8.  Info:~%~S"
				   (list i
					 (card8->char i)
					 (char->card8 (card8->char i))))
			     (return nil)))
			 (dotimes (i (length *char-to-card8-translation-table*))
			   (let ((char (code-char i)))
			     (unless (eql char (card8->char (char->card8 char)))
			       (warn "The char->card8 mapping is not invertible through card8->char.  Info:~%~S"
				     (list char
					   (char->card8 char)
					   (card8->char (char->card8 char))))
			       (return nil))))))
		     (t
		      `(progn
			 (defun char->card8 (char)
			   (declare (type base-char char))
			   #.(declare-buffun)
			   (the card8 (char-code char)))
			 (defun card8->char (card8)
			   (declare (type card8 card8))
			   #.(declare-buffun)
			   (the base-char (code-char card8)))
			 ))))))
  (char-translators))

;;-----------------------------------------------------------------------------
;; Process Locking
;;
;;	Common-Lisp doesn't provide process locking primitives, so we define
;;	our own here, based on Zetalisp primitives.  Holding-Lock is very
;;	similar to with-lock on The TI Explorer, and a little more efficient
;;	than with-process-lock on a Symbolics.
;;-----------------------------------------------------------------------------

;;; MAKE-PROCESS-LOCK: Creating a process lock.

(defun make-process-lock (name)
  (ccl:make-lock name))

;;; HOLDING-LOCK: Execute a body of code with a lock held.

;;; The holding-lock macro takes a timeout keyword argument.  EVENT-LISTEN
;;; passes its timeout to the holding-lock macro, so any timeout you want to
;;; work for event-listen you should do for holding-lock.

(defmacro holding-lock ((locator display &optional whostate &key timeout)
			&body body)
  (declare (ignore timeout display))
  `(ccl:with-lock-grabbed (,locator ,whostate)
    ,@body))

;;; WITHOUT-ABORTS

;;; If you can inhibit asynchronous keyboard aborts inside the body of this
;;; macro, then it is a good idea to do this.  This macro is wrapped around
;;; request writing and reply reading to ensure that requests are atomically
;;; written and replies are atomically read from the stream.

(defmacro without-aborts (&body body)
  `(ccl:without-interrupts ,@body))

;;; PROCESS-BLOCK: Wait until a given predicate returns a non-NIL value.
;;; Caller guarantees that PROCESS-WAKEUP will be called after the predicate's
;;; value changes.

(defun process-block (whostate predicate &rest predicate-args)
  (declare (dynamic-extern predicate-args))
  (apply #'ccl:process-wait whostate predicate predicate-args))

;;; PROCESS-WAKEUP: Check some other process' wait function.

(declaim (inline process-wakeup))

(defun process-wakeup (process)
  (declare (ignore process))
  nil)

;;; CURRENT-PROCESS: Return the current process object for input locking and
;;; for calling PROCESS-WAKEUP.

(declaim (inline current-process))

;;; Default return NIL, which is acceptable even if there is a scheduler.

(defun current-process ()
  ccl::*current-process*)

;;; WITHOUT-INTERRUPTS -- provide for atomic operations.

(defmacro without-interrupts (&body body)
  `(ccl:without-interrupts ,@body))

;;; CONDITIONAL-STORE:

;; This should use GET-SETF-METHOD to avoid evaluating subforms multiple times.
;; It doesn't because CLtL doesn't pass the environment to GET-SETF-METHOD.

(defmacro conditional-store (place old-value new-value)
  `(ccl::conditional-store ,place ,old-value ,new-value))

;;;----------------------------------------------------------------------------
;;; IO Error Recovery
;;;	All I/O operations are done within a WRAP-BUF-OUTPUT macro.
;;;	It prevents multiple mindless errors when the network craters.
;;;
;;;----------------------------------------------------------------------------

(defmacro wrap-buf-output ((buffer) &body body)
  ;; Error recovery wrapper
  `(unless (buffer-dead ,buffer)
     ,@body))

(defmacro wrap-buf-input ((buffer) &body body)
  (declare (ignore buffer))
  ;; Error recovery wrapper
  `(progn ,@body))


;;;----------------------------------------------------------------------------
;;; System dependent IO primitives
;;;	Functions for opening, reading writing forcing-output and closing 
;;;	the stream to the server.
;;;----------------------------------------------------------------------------

;;; OPEN-X-STREAM - create a stream for communicating to the appropriate X
;;; server

(defun open-x-stream (host display protocol)
  (declare (ignore protocol))
  (let ((local-socket-path (unix-socket-path-from-host host display)))
    (if local-socket-path
    (ccl::make-socket :connect :active
                      :address-family  :file
			 :remote-filename local-socket-path)
    (ccl::make-socket :connect :active
                      :remote-host host
			 :remote-port (+ 6000 display)))))

;;; BUFFER-READ-DEFAULT - read data from the X stream

(defun buffer-read-default (display vector start end timeout)
  (declare (type display display)
	   (type buffer-bytes vector)
	   (type array-index start end)
	   (type (or null (real 0 *)) timeout))
  #.(declare-buffun)
  (let ((stream (display-input-stream display)))
    (declare (type (or null stream) stream))
    (or (cond ((null stream))
	      ((listen stream) nil)
	      ((and timeout (= timeout 0)) :timeout)
	      ((buffer-input-wait-default display timeout)))
	(progn
	  (ccl:stream-read-ivector stream vector start (- end start))
	  nil))))

;;; BUFFER-WRITE-DEFAULT - write data to the X stream

(defun buffer-write-default (vector display start end)
  (declare (type buffer-bytes vector)
	   (type display display)
	   (type array-index start end))
  #.(declare-buffun)
  (let ((stream (display-output-stream display)))
    (declare (type (or null stream) stream))
    (unless (null stream)
      (ccl:stream-write-ivector stream vector start (- end start)))
    nil))

;;; buffer-force-output-default - force output to the X stream

(defun buffer-force-output-default (display)
  ;; The default buffer force-output function for use with common-lisp streams
  (declare (type display display))
  (let ((stream (display-output-stream display)))
    (declare (type (or null stream) stream))
    (unless (null stream)
      (force-output stream))))

;;; BUFFER-CLOSE-DEFAULT - close the X stream

(defun buffer-close-default (display &key abort)
  ;; The default buffer close function for use with common-lisp streams
  (declare (type display display))
  #.(declare-buffun)
  (let ((stream (display-output-stream display)))
    (declare (type (or null stream) stream))
    (unless (null stream)
      (close stream :abort abort))))

;;; BUFFER-INPUT-WAIT-DEFAULT - wait for for input to be available for the
;;; buffer.  This is called in read-input between requests, so that a process
;;; waiting for input is abortable when between requests.  Should return
;;; :TIMEOUT if it times out, NIL otherwise.

(defun buffer-input-wait-default (display timeout)
  (declare (type display display)
	   (type (or null number) timeout))
  (let ((stream (display-input-stream display)))
    (declare (type (or null stream) stream))
    (cond ((null stream))
	  ((listen stream) nil)
	  ((eql timeout 0) :timeout)
	  (t
	   (let* ((fd (ccl::stream-device stream :input))
		  (ticks (and timeout (floor (* timeout ccl::*ticks-per-second*)))))
	     (if (ccl::process-input-wait fd ticks)
                 nil
                 :timeout))))))


;;; BUFFER-LISTEN-DEFAULT - returns T if there is input available for the
;;; buffer. This should never block, so it can be called from the scheduler.

;;; The default implementation is to just use listen.

(defun buffer-listen-default (display)
  (declare (type display display))
  (let ((stream (display-input-stream display)))
    (declare (type (or null stream) stream))
    (if (null stream)
	t
      (listen stream))))


;;;----------------------------------------------------------------------------
;;; System dependent speed hacks
;;;----------------------------------------------------------------------------

;;
;; WITH-STACK-LIST is used by WITH-STATE as a memory saving feature.
;; If your lisp doesn't have stack-lists, and you're worried about
;; consing garbage, you may want to re-write this to allocate and
;; initialize lists from a resource.
;;

(defmacro with-stack-list ((var &rest elements) &body body)
  ;; SYNTAX: (WITH-STACK-LIST (var exp1 ... expN) body)
  ;; Equivalent to (LET ((var (MAPCAR #'EVAL '(exp1 ... expN)))) body)
  ;; except that the list produced by MAPCAR resides on the stack and
  ;; therefore DISAPPEARS when WITH-STACK-LIST is exited.
  `(let ((,var (list ,@elements)))
     (declare (type cons ,var)
	      #+clx-ansi-common-lisp (dynamic-extent ,var))
     ,@body))

(defmacro with-stack-list* ((var &rest elements) &body body)
  ;; SYNTAX: (WITH-STACK-LIST* (var exp1 ... expN) body)
  ;; Equivalent to (LET ((var (APPLY #'LIST* (MAPCAR #'EVAL '(exp1 ... expN))))) body)
  ;; except that the list produced by MAPCAR resides on the stack and
  ;; therefore DISAPPEARS when WITH-STACK-LIST is exited.
  `(let ((,var (list* ,@elements)))
     (declare (type cons ,var)
              (dynamic-extent ,var))
     ,@body))

(declaim (inline buffer-replace))

(defun buffer-replace (buf1 buf2 start1 end1 &optional (start2 0))
  (declare (type buffer-bytes buf1 buf2)
	   (type array-index start1 end1 start2))
  (replace buf1 buf2 :start1 start1 :end1 end1 :start2 start2))

(defmacro with-gcontext-bindings ((gc saved-state indexes ts-index temp-mask temp-gc)
				  &body body)
  (let ((local-state (gensym))
	(resets nil))
    (dolist (index indexes)
      (push `(setf (svref ,local-state ,index) (svref ,saved-state ,index))
	    resets))
    `(unwind-protect
	 (progn
	   ,@body)
       (let ((,local-state (gcontext-local-state ,gc)))
	 (declare (type gcontext-state ,local-state))
	 ,@resets
	 (setf (svref ,local-state ,ts-index) 0))
       (when ,temp-gc
	 (restore-gcontext-temp-state ,gc ,temp-mask ,temp-gc))
       (deallocate-gcontext-state ,saved-state))))

;;;----------------------------------------------------------------------------
;;; How much error detection should CLX do?
;;; Several levels are possible:
;;;
;;; 1. Do the equivalent of check-type on every argument.
;;; 
;;; 2. Simply report TYPE-ERROR.  This eliminates overhead of all the format
;;;    strings generated by check-type.
;;; 
;;; 3. Do error checking only on arguments that are likely to have errors
;;;    (like keyword names)
;;; 
;;; 4. Do error checking only where not doing so may dammage the envirnment
;;;    on a non-tagged machine (i.e. when storing into a structure that has
;;;    been passed in)
;;; 
;;; 5. No extra error detection code.  On lispm's, ASET may barf trying to
;;;    store a non-integer into a number array. 
;;; 
;;; How extensive should the error checking be?  For example, if the server
;;; expects a CARD16, is is sufficient for CLX to check for integer, or
;;; should it also check for non-negative and less than 65536?
;;;----------------------------------------------------------------------------
 
;; The +TYPE-CHECK?+ constant controls how much error checking is done.
;; Possible values are:
;;    NIL      - Don't do any error checking
;;    t        - Do the equivalent of checktype on every argument
;;    :minimal - Do error checking only where errors are likely

;;; This controls macro expansion, and isn't changable at run-time You will
;;; probably want to set this to nil if you want good performance at
;;; production time.
(defconstant +type-check?+ nil)

;; TYPE? is used to allow the code to do error checking at a different level from
;; the declarations.  It also does some optimizations for systems that don't have
;; good compiler support for TYPEP.  The definitions for CARD32, CARD16, INT16, etc.
;; include range checks.  You can modify TYPE? to do less extensive checking
;; for these types if you desire.

;;
;; ### This comment is a lie!  TYPE? is really also used for run-time type
;; dispatching, not just type checking.  -- Ram.

(defmacro type? (object type)
  (if (not (constantp type))
      `(typep ,object ,type)
    (progn
      (setq type (eval type))
      (let ((predicate (assoc type
			      '((drawable drawable-p) (window window-p)
				(pixmap pixmap-p) (cursor cursor-p)
				(font font-p) (gcontext gcontext-p)
				(colormap colormap-p) (null null)
				(integer integerp)))))
	(cond (predicate
	       `(,(second predicate) ,object))
	      ((eq type 'generalized-boolean)
	       't)			; Everything is a generalized-boolean.
	      (+type-check?+
	       `(locally (declare (optimize safety)) (typep ,object ',type)))
	      (t
	       `(typep ,object ',type)))))))

;; X-TYPE-ERROR is the function called for type errors.
;; If you want lots of checking, but are concerned about code size,
;; this can be made into a macro that ignores some parameters.

(defun x-type-error (object type &optional error-string)
  (x-error 'x-type-error
	   :datum object
	   :expected-type type
	   :type-string error-string))


;;-----------------------------------------------------------------------------
;; Error handlers
;;    Hack up KMP error signaling using zetalisp until the real thing comes 
;;    along
;;-----------------------------------------------------------------------------

(defun default-error-handler (display error-key &rest key-vals
			      &key asynchronous &allow-other-keys)
  (declare (type generalized-boolean asynchronous)
	   (dynamic-extent key-vals))
  ;; The default display-error-handler.
  ;; It signals the conditions listed in the DISPLAY file.
  (if asynchronous
      (apply #'x-cerror "Ignore" error-key :display display :error-key error-key key-vals)
      (apply #'x-error error-key :display display :error-key error-key key-vals)))

(defun x-error (condition &rest keyargs)
  (declare (dynamic-extent keyargs))
  (apply #'error condition keyargs))

(defun x-cerror (proceed-format-string condition &rest keyargs)
  (declare (dynamic-extent keyargs))
  (apply #'cerror proceed-format-string condition keyargs))


;; version 15 of Pitman error handling defines the syntax for define-condition to be:
;; DEFINE-CONDITION name (parent-type) [({slot}*) {option}*]
;; Where option is one of: (:documentation doc-string) (:conc-name symbol-or-string)
;; or (:report exp)

(define-condition x-error (error) ())


;;-----------------------------------------------------------------------------
;;  HOST hacking
;;-----------------------------------------------------------------------------

(defun host-address (host &optional (family :internet))
  ;; Return a list whose car is the family keyword (:internet :DECnet :Chaos)
  ;; and cdr is a list of network address bytes.
  (declare (type stringable host)
	   (type (or null (member :internet :decnet :chaos) card8) family))
  (declare (clx-values list))
  (ecase family
    ((:internet nil 0)
     (let* ((addr (ccl::host-as-inet-host host)))
       (cons :internet (list
                        (ldb (byte 8 24) addr)
                        (ldb (byte 8 16) addr)
                        (ldb (byte 8 8) addr)
                        (ldb (byte 8 0) addr)))))))


;;-----------------------------------------------------------------------------
;; Whether to use closures for requests or not.
;;-----------------------------------------------------------------------------

;;; If this macro expands to non-NIL, then request and locking code is
;;; compiled in a much more compact format, as the common code is shared, and
;;; the specific code is built into a closure that is funcalled by the shared
;;; code.  If your compiler makes efficient use of closures then you probably
;;; want to make this expand to T, as it makes the code more compact.

(defmacro use-closures () nil)

(defun clx-macroexpand (form env)
  (macroexpand form env))


;;-----------------------------------------------------------------------------
;; Resource stuff
;;-----------------------------------------------------------------------------


;;; Utilities 

(defun getenv (name)
  (ccl::getenv name))

(defun get-host-name ()
  "Return the same hostname as gethostname(3) would"
  (machine-instance))

(defun homedir-file-pathname (name)
  (merge-pathnames (user-homedir-pathname) (pathname name)))

;;; DEFAULT-RESOURCES-PATHNAME - The pathname of the resources file to load if
;;; a resource manager isn't running.

(defun default-resources-pathname ()
  (homedir-file-pathname ".Xdefaults"))

;;; RESOURCES-PATHNAME - The pathname of the resources file to load after the
;;; defaults have been loaded.

(defun resources-pathname ()
  (or (let ((string (getenv "XENVIRONMENT")))
	(and string
	     (pathname string)))
      (homedir-file-pathname
       (concatenate 'string ".Xdefaults-" (get-host-name)))))

;;; AUTHORITY-PATHNAME - The pathname of the authority file.

(defun authority-pathname ()
  (or (let ((xauthority (getenv "XAUTHORITY")))
	(and xauthority
	     (pathname xauthority)))
      (homedir-file-pathname ".Xauthority")))

;;; this particular defaulting behaviour is typical to most Unices, I think

(defun get-default-display (&optional display-name)
  "Parse the argument DISPLAY-NAME, or the environment variable $DISPLAY
if it is NIL.  Display names have the format

  [protocol/] [hostname] : [:] displaynumber [.screennumber]

There are two special cases in parsing, to match that done in the Xlib
C language bindings

 - If the hostname is ``unix'' or the empty string, any supplied
   protocol is ignored and a connection is made using the :local
   transport.

 - If a double colon separates hostname from displaynumber, the
   protocol is assumed to be decnet.

Returns a list of (host display-number screen protocol)."
  (let* ((name (or display-name
		   (getenv "DISPLAY")
		   (error "DISPLAY environment variable is not set")))
	 (slash-i (or (position #\/ name) -1))
	 (colon-i (position #\: name :start (1+ slash-i)))
	 (decnet-colon-p (eql (elt name (1+ colon-i)) #\:))
	 (host (subseq name (1+ slash-i) colon-i))
	 (dot-i (and colon-i (position #\. name :start colon-i)))
	 (display (when colon-i
		    (parse-integer name
				   :start (if decnet-colon-p
					      (+ colon-i 2)
					      (1+ colon-i))
				   :end dot-i)))
	 (screen (when dot-i
		   (parse-integer name :start (1+ dot-i))))
	 (protocol
	  (cond ((or (string= host "") (string-equal host "unix")) :local)
		(decnet-colon-p :decnet)
		((> slash-i -1) (intern
				 (string-upcase (subseq name 0 slash-i))
				 :keyword))
		(t :internet))))
    (list host (or display 0) (or screen 0) protocol)))


;;-----------------------------------------------------------------------------
;; GC stuff
;;-----------------------------------------------------------------------------

(defun gc-cleanup ()
  (declare (special *event-free-list*
		    *pending-command-free-list*
		    *reply-buffer-free-lists*
		    *gcontext-local-state-cache*
		    *temp-gcontext-cache*))
  (setq *event-free-list* nil)
  (setq *pending-command-free-list* nil)
  (when (boundp '*reply-buffer-free-lists*)
    (fill *reply-buffer-free-lists* nil))
  (setq *gcontext-local-state-cache* nil)
  (setq *temp-gcontext-cache* nil)
  nil)


;;-----------------------------------------------------------------------------
;; DEFAULT-KEYSYM-TRANSLATE
;;-----------------------------------------------------------------------------

;;; If object is a character, char-bits are set from state.
;;;
;;; [the following isn't implemented (should it be?)]
;;; If object is a list, it is an alist with entries:
;;; (base-char [modifiers] [mask-modifiers])
;;; When MODIFIERS are specified, this character translation
;;; will only take effect when the specified modifiers are pressed.
;;; MASK-MODIFIERS can be used to specify a set of modifiers to ignore.
;;; When MASK-MODIFIERS is missing, all other modifiers are ignored.
;;; In ambiguous cases, the most specific translation is used.

(defun default-keysym-translate (display state object)
  (declare (type display display)
	   (type card16 state)
	   (type t object)
	   (ignore display state)
	   (clx-values t))
  object)


;;-----------------------------------------------------------------------------
;; Image stuff
;;-----------------------------------------------------------------------------

;;; Types

(deftype pixarray-1-element-type ()
  'bit)

(deftype pixarray-4-element-type ()
  '(unsigned-byte 4))

(deftype pixarray-8-element-type ()
  '(unsigned-byte 8))

(deftype pixarray-16-element-type ()
  '(unsigned-byte 16))

(deftype pixarray-24-element-type ()
  '(unsigned-byte 24))

(deftype pixarray-32-element-type ()
  '(unsigned-byte 32))

(deftype pixarray-1  ()
  '(array pixarray-1-element-type (* *)))

(deftype pixarray-4  ()
  '(array pixarray-4-element-type (* *)))

(deftype pixarray-8  ()
  '(array pixarray-8-element-type (* *)))

(deftype pixarray-16 ()
  '(array pixarray-16-element-type (* *)))

(deftype pixarray-24 ()
  '(array pixarray-24-element-type (* *)))

(deftype pixarray-32 ()
  '(array pixarray-32-element-type (* *)))

(deftype pixarray ()
  '(or pixarray-1 pixarray-4 pixarray-8 pixarray-16 pixarray-24 pixarray-32))

(deftype bitmap ()
  'pixarray-1)

;;; WITH-UNDERLYING-SIMPLE-VECTOR 

(defmacro with-underlying-simple-vector ((variable element-type pixarray)
                                         &body body)
  (declare (ignore element-type))
  `(let* ((,variable (ccl::array-data-and-offset ,pixarray)))
     ,@body))

;;; These are used to read and write pixels from and to CARD8s.

;;; READ-IMAGE-LOAD-BYTE is used to extract 1 and 4 bit pixels from CARD8s.

(defmacro read-image-load-byte (size position integer)
  (unless +image-bit-lsb-first-p+ (setq position (- 7 position)))
  `(the (unsigned-byte ,size)
     (ldb 
      (byte ,size ,position)
      (the card8 ,integer))))

;;; READ-IMAGE-ASSEMBLE-BYTES is used to build 16, 24 and 32 bit pixels from
;;; the appropriate number of CARD8s.

(defmacro read-image-assemble-bytes (&rest bytes)
  (unless +image-byte-lsb-first-p+ (setq bytes (reverse bytes)))
  (let ((it (first bytes))
	(count 0))
    (dolist (byte (rest bytes))
      (setq it
	    `(dpb
	      (the card8 ,byte)
	      (byte 8 ,(incf count 8))
	      (the (unsigned-byte ,count) ,it))))
    `(the (unsigned-byte ,(* (length bytes) 8)) ,it)))

;;; WRITE-IMAGE-LOAD-BYTE is used to extract a CARD8 from a 16, 24 or 32 bit
;;; pixel.

(defmacro write-image-load-byte (position integer integer-size)
  integer-size
  (unless +image-byte-lsb-first-p+ (setq position (- integer-size 8 position)))
  `(the card8
     (ldb
      (byte 8 ,position)
      (the (unsigned-byte ,integer-size) ,integer))))

;;; WRITE-IMAGE-ASSEMBLE-BYTES is used to build a CARD8 from 1 or 4 bit
;;; pixels.

(defmacro write-image-assemble-bytes (&rest bytes)
  (unless +image-bit-lsb-first-p+ (setq bytes (reverse bytes)))
  (let ((size (floor 8 (length bytes)))
	(it (first bytes))
	(count 0))
    (dolist (byte (rest bytes))
      (setq it `(dpb
                 (the (unsigned-byte ,size) ,byte)
                 (byte ,size ,(incf count size))
                 (the (unsigned-byte ,count) ,it))))
    `(the card8 ,it)))


;;; If you can write fast routines that can read and write pixarrays out of a
;;; buffer-bytes, do it!  It makes the image code a lot faster.  The
;;; FAST-READ-PIXARRAY, FAST-WRITE-PIXARRAY and FAST-COPY-PIXARRAY routines
;;; return T if they can do it, NIL if they can't.

;;; FAST-READ-PIXARRAY - fill part of a pixarray from a buffer of card8s

(defun fast-read-pixarray (bbuf boffset pixarray
			   x y width height padded-bytes-per-line
			   bits-per-pixel
			   unit byte-lsb-first-p bit-lsb-first-p)
  (declare (ignore bbuf boffset pixarray x y width height
                   padded-bytes-per-line bits-per-pixel unit
                   byte-lsb-first-p bit-lsb-first-p))
  nil)

;;; FAST-WRITE-PIXARRAY - copy part of a pixarray into an array of CARD8s

(defun fast-write-pixarray (bbuf boffset pixarray x y width height
			    padded-bytes-per-line bits-per-pixel
			    unit byte-lsb-first-p bit-lsb-first-p)
  (declare (ignore bbuf boffset pixarray x y width height
                   padded-bytes-per-line bits-per-pixel unit
                   byte-lsb-first-p bit-lsp-first-p))
  nil)

;;; FAST-COPY-PIXARRAY - copy part of a pixarray into another

(defun fast-copy-pixarray (pixarray copy x y width height bits-per-pixel)
  (declare (ignore pixarray copy x y width height bits-per-pixel))
  nil)