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author | Ludovic Courtès | 2008-10-10 00:13:41 +0200 |
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committer | Ludovic Courtès | 2008-10-10 00:13:41 +0200 |
commit | 90c67b504f0495f15787b81e8325f1d5824e0a41 (patch) | |
tree | 7699e21342e70c5e59970afb8732e8622f48a46b /src | |
parent | 9aaaf08efd0cccdac8bda6d9a9b58e39609b09c6 (diff) | |
download | skribilo-90c67b504f0495f15787b81e8325f1d5824e0a41.tar.gz skribilo-90c67b504f0495f15787b81e8325f1d5824e0a41.tar.lz skribilo-90c67b504f0495f15787b81e8325f1d5824e0a41.zip |
Import `table.scm' (ASCII tables) from Scribe 1.1a.
Diffstat (limited to 'src')
-rw-r--r-- | src/guile/skribilo/utils/text-table.scm | 226 |
1 files changed, 226 insertions, 0 deletions
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))))) |