All Manuals > Common Lisp Interface Manager 2.0 User's Guide > Chapter 17 Formatted Output > 17.1 Formatting Tables in CLIM > 17.1.3 Examples of Formatting Tables

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17.1.3.2 Formatting a Table Representing a Calendar Month

The calendar-month function shows how you can format a table that represents a calendar month. The first row in the table acts as column headings representing the days of the week. The following rows are numbers representing the days of the month.

This example shows how you can align the contents of a cell. The column headings (Sun, Mon, Tue, etc.) are centered within the cells. However, the dates themselves (1, 2, 3, ... 31) are aligned to the right edge of the cells. The resulting calendar looks good because the dates are aligned in the natural way.

(in-package :clim-user)
(defvar *day-of-the-week-string* '((0 . "Mon")(1 . "Tue")
                                   (2 . "Wed")(3 . "Thu")
                                   (4 . "Fri")(5 . "Sat")
                                   (6 . "Sun")))
(defun day-of-the-week-string (day-of-week)
  (cdr (assoc day-of-week  *day-of-the-week-string*)))
(defvar *days-in-month* '((1 . 31)(2 . 28) ( 3 . 31)( 4 . 30)
                          (5 . 31)(6 . 30) ( 7 . 31)( 8 . 31)
                          (9 . 30)(10 . 31)(11 . 30)(12 . 31))
  "alist whose first element is numeric value returned by
decode-universal-time and second is the number of days in that month")
;; In a leap year, the month-length function increments the number of
;; days in February as required 
(defun leap-year-p (year)
  (cond ((and (integerp (/ year 100))
              (integerp (/ year 400)))
         t)
        ((and (not (integerp (/ year 100)))
              (integerp (/ year 4)))
         t)
        (t nil)))
(defun month-length (month year)
  (let ((days (cdr (assoc month *days-in-month*))))
    (when (and (eql month 2)
               (leap-year-p year))
      (incf days))
    days))
(defun calendar-month (month year &key (stream *standard-output*))
  (let ((days-in-month (month-length month year)))
    (multiple-value-bind (sec min hour date month year start-day)
        (decode-universal-time (encode-universal-time 
                                       0 0 0 1 month year))
      (setq start-day (mod (+ start-day 1) 7))
      (clim:formatting-table (stream)
        (clim:formatting-row (stream)
          (dotimes (d 7)
            (clim:formatting-cell (stream :align-x :center)
              (write-string (day-of-the-week-string 
                            (mod (- d 1) 7)) stream))))
        (do ((date 1)
             (first-week t nil))
            ((> date days-in-month))
          (clim:formatting-row (stream)
            (dotimes (d 7)
              (clim:formatting-cell (stream :align-x :right)
                (when (and (<= date days-in-month)
                           (or (not first-week) (>= d start-day)))
                  (format stream "~D" date)
                  (incf date))))))))))
(define-application-frame calendar ()
  ()
  (:panes
    (main :application
          :width :compute :height :compute
          :display-function 'display-main)))
 
(define-calendar-command (com-exit-calendar :menu "Exit") ()
  (frame-exit *application-frame*))
 
(defmethod display-main ((frame calendar) stream &key)
  (multiple-value-bind (sec min hour date month year start-day)
      (decode-universal-time (get-universal-time))
    (calendar-month month year :stream stream)))
 
(defun run ()
  (find-application-frame 'calendar))

Evaluating (calendar-month 5 90 :stream *my-stream*) shows this table:

     Sun  Mon  Tue  Wed  Thu  Fri  Sat
                 1    2    3    4    5
       6    7    8    9   10   11   12
      13   14   15   16   17   18   19
      20   21   22   23   24   25   26
      27   28   29   30   31
Figure 26. A Table Representing a Calendar Month

Common Lisp Interface Manager 2.0 User's Guide - 7 Aug 2017

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