From 90c67b504f0495f15787b81e8325f1d5824e0a41 Mon Sep 17 00:00:00 2001
From: Ludovic Courtès
Date: Fri, 10 Oct 2008 00:13:41 +0200
Subject: Import `table.scm' (ASCII tables) from Scribe 1.1a.

---
 src/guile/skribilo/utils/text-table.scm | 226 ++++++++++++++++++++++++++++++++
 1 file changed, 226 insertions(+)
 create mode 100644 src/guile/skribilo/utils/text-table.scm

(limited to 'src')

diff --git a/src/guile/skribilo/utils/text-table.scm b/src/guile/skribilo/utils/text-table.scm
new file mode 100644
index 0000000..20dbb23
--- /dev/null
+++ b/src/guile/skribilo/utils/text-table.scm
@@ -0,0 +1,226 @@
+;*=====================================================================*/
+;*    serrano/prgm/project/scribe/scribetext/table.scm                 */
+;*    -------------------------------------------------------------    */
+;*    Author      :  Manuel Serrano                                    */
+;*    Creation    :  Mon Nov  5 06:41:44 2001                          */
+;*    Last change :  Fri Nov 23 11:04:56 2001 (serrano)                */
+;*    Copyright   :  2001 Manuel Serrano                               */
+;*    -------------------------------------------------------------    */
+;*    Table handling                                                   */
+;*=====================================================================*/
+
+;*---------------------------------------------------------------------*/
+;*    The module                                                       */
+;*---------------------------------------------------------------------*/
+(module __scribetext_table
+
+   (library scribeapi)
+
+   (import __scribetext_justify)
+   
+   (export (table->ascii ::%table ::procedure)))
+
+;*---------------------------------------------------------------------*/
+;*    table->ascii ...                                                 */
+;*---------------------------------------------------------------------*/
+(define (table->ascii obj scribe->ascii)
+   (with-access::%table obj (width nbcols rows)
+      (let* ((nc::long nbcols)
+	     (awidth (-fx (cond
+			     ((fixnum? width)
+			      width)
+			     ((flonum? width)
+			      (inexact->exact (* width (justification-width))))
+			     (else
+			      (justification-width)))
+			  ;; remove one characters per columns separation
+			  (-fx nc 1)))
+	     (colswidth::vector (rows-requested-sizes obj nc awidth))
+	     (lcolswidth::pair-nil (vector->list colswidth))
+	     (nb-def-cols (length (filter (lambda (s) (= s 0)) lcolswidth)))
+	     (defcolwidth (if (= nb-def-cols 0)
+			      0
+			      (inexact->exact
+			       (/ (- awidth (apply + lcolswidth))
+				  nb-def-cols)))))
+	 ;; we have computed the requested col sizes and the global size
+	 ;; of the table, we now compute the exact col sizes
+	 (let loop ((i 0)
+		    (sum 0))
+	    (if (=fx i nc)
+		;; we adjust (because of modulo approx) the last column
+		(if (not (=fx sum awidth))
+		    (vector-set! colswidth
+				 (-fx i 1)
+				 (+fx (vector-ref colswidth (-fx i 1))
+				      (-fx awidth sum))))
+		(if (= (vector-ref colswidth i) 0)
+		    (begin
+		       (vector-set! colswidth i defcolwidth)
+		       (loop (+fx i 1) (+fx sum defcolwidth)))
+		    (loop (+fx i 1) (+fx sum (vector-ref colswidth i))))))
+	 ;; at that point colswidth contains the width of each colums.
+	 (let ((lcolswidth (vector->list colswidth))
+	       (hrows (map (lambda (r)
+			      (table-row-format r nc colswidth scribe->ascii))
+			   rows)))
+	    (let ((vrows (map (lambda (r)
+				 (let ((lines (apply max
+						     (map (lambda (c)
+							     (length (cdr c)))
+							  r))))
+				    (smallest-map (lambda (c cw)
+						     (table-cell-vformat
+						      c lines cw))
+						  r lcolswidth)))
+			      hrows)))
+	       ;; we are done, all cells are formated, we can display the
+	       ;; whole table now
+	       (for-each (lambda (r)
+			    (apply for-each
+				   (lambda l
+				      (for-each output-token l)
+				      (output-newline))
+				   r))
+			 vrows))))))
+
+;*---------------------------------------------------------------------*/
+;*    table-row-format ...                                             */
+;*---------------------------------------------------------------------*/
+(define (table-row-format row::%table-row nbcols::int colswidth scribe->ascii)
+   (define (cell-width cnum cspan)
+      (let ((v (do ((i cnum (+fx i 1))
+		    (w 0 (+fx w (vector-ref colswidth i))))
+		   ((=fx i (+fx cnum cspan)) w))))
+	 (+fx v (-fx cspan 1))))
+   (with-access::%table-row row (cells)
+      (let loop ((cells cells)
+		 (cnum 0)
+		 (res '()))
+	 (cond
+	    ((pair? cells)
+	     (let* ((cell (car cells))
+		    (cspan (%table-cell-colspan cell))
+		    (cell-width (cell-width cnum cspan)))
+		(loop (cdr cells)
+		      (+fx cnum cspan)
+		      (cons (table-cell-format cell
+					       cell-width
+					       scribe->ascii)
+			    res))))
+	    ((=fx cnum nbcols)
+	     (reverse! res))
+	    (else
+	     (let ((eline (make-string (vector-ref colswidth cnum) #\space)))
+		(loop cells
+		      (+fx cnum 1)
+		      (cons (cons (instantiate::%table-data
+				     (body ""))
+				  (list eline)) res))))))))
+
+;*---------------------------------------------------------------------*/
+;*    table-cell-format ::table-cell ...                               */
+;*    -------------------------------------------------------------    */
+;*    Output a table cell according to its WIDTH. At that time we have */
+;*    to ignore the width that is specified in the cell because we     */
+;*    have processed a global computation of column width. For the     */
+;*    reason, we ignore the cell COLSPAN.                              */
+;*    -------------------------------------------------------------    */
+;*    This is a bit tricky because we can't display the cell as        */
+;*    we process it. We have to store in data structures the lines     */
+;*    representing the cell and in a second time, when all the table   */
+;*    is processed we display the cells. For that reason, we can't     */
+;*    use WITH-JUSTIFICATION form.                                     */
+;*---------------------------------------------------------------------*/
+(define (table-cell-format obj::%table-cell width scribe->ascii)
+   (with-access::%table-cell obj (align body)
+      (cons obj
+	    (let ((fmt (with-justification/noflush
+			(make-justifier width
+					(case align
+					   ((left)
+					    'left)
+					   ((right)
+					    'right)
+					   ((center)
+					    'center)
+					   (else
+					    (if (not align)
+						'left
+						(error "table-cell-format"
+						       "Illegal horizontal alignment"
+						       align)))))
+			(lambda () (scribe->ascii body)))))
+	       (if (null? fmt)
+		   '("")
+		   fmt)))))
+
+;*---------------------------------------------------------------------*/
+;*    table-cell-vformat ...                                           */
+;*    -------------------------------------------------------------    */
+;*    We have formated the table cell horizontally. Now we have to     */
+;*    consider the VALIGN fields. That is, we complete the cell        */
+;*    formating with empty blank line around the cell.                 */
+;*---------------------------------------------------------------------*/
+(define (table-cell-vformat::pair p::pair nblines::int cwidth)
+   (define (make-filler-lines num)
+      (vector->list (make-vector num (make-string cwidth #\Space))))
+   (let* ((cell (car p))
+	  (fmt (cdr p))
+	  (lfmt (length fmt)))
+      (if (=fx lfmt nblines)
+	  fmt
+	  (let* ((new (- nblines lfmt))
+		 (new/2 (inexact->exact (/ new 2))))
+	     (case (%table-cell-valign cell)
+		((top)
+		 (append fmt (make-filler-lines new)))
+		((bottom)
+		 (append (make-filler-lines new) fmt))
+		(else
+		 (append (make-filler-lines new/2)
+			 fmt
+			 (make-filler-lines (- nblines lfmt new/2)))))))))
+      
+;*---------------------------------------------------------------------*/
+;*    rows-requested-sizes ...                                         */
+;*    -------------------------------------------------------------    */
+;*    This function scans all the rows of TABLE. It check each         */
+;*    cells of the rows in order to find out if there is a             */
+;*    specified width for the column the cell belongs to.              */
+;*---------------------------------------------------------------------*/
+(define (rows-requested-sizes table nbcols twidth)
+   (let ((rsizes (make-vector nbcols 0)))
+      (for-each (lambda (row)
+		   (let loop ((cells (%table-row-cells row))
+			      (col 0))
+		      (if (pair? cells)
+			  (let* ((cell (car cells))
+				 (cspan (%table-cell-colspan cell))
+				 (swidth (%table-cell-width cell)))
+			     (if (number? swidth)
+				 (let* ((swidth (if (fixnum? swidth)
+						    swidth
+						    (inexact->exact
+						     (* swidth twidth))))
+					(cswidth (/ swidth cspan)))
+				    (do ((j 0 (+fx j 1)))
+					((=fx j cspan)
+					 (loop (cdr cells)
+					       (+fx col cspan)))
+					(if (< (vector-ref rsizes (+ col j))
+					       cswidth)
+					    (vector-set! rsizes
+							 (+ col j)
+							 cswidth))))
+				 (loop (cdr cells) (+fx col cspan)))))))
+		(%table-rows table))
+      rsizes))
+				       
+;*---------------------------------------------------------------------*/
+;*    smallest-map ...                                                 */
+;*---------------------------------------------------------------------*/
+(define (smallest-map f l1 l2)
+   (if (or (null? l1) (null? l2))
+       '()
+       (cons (f (car l1) (car l2)) (smallest-map f (cdr l1) (cdr l2)))))
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