/*
* Evolution calendar - Print support
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) version 3.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with the program; if not, see <http://www.gnu.org/licenses/>
*
*
* Authors:
* Michael Zucchi <notzed@ximian.com>
* Federico Mena-Quintero <federico@ximian.com>
* Damon Chaplin <damon@ximian.com>
*
* Copyright (C) 1999-2008 Novell, Inc. (www.novell.com)
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <sys/stat.h>
#include <sys/time.h>
#include <math.h>
#include <string.h>
#include <time.h>
#include <glib.h>
#include <gtk/gtk.h>
#include <glib/gi18n.h>
#include <libedataserver/e-time-utils.h>
#include <libedataserver/e-data-server-util.h>
#include <e-util/e-util.h>
#include <e-util/e-dialog-widgets.h>
#include <e-util/e-print.h>
#include <libecal/e-cal-time-util.h>
#include <libecal/e-cal-component.h>
#include "e-cal-model.h"
#include "e-day-view.h"
#include "e-day-view-layout.h"
#include "e-week-view.h"
#include "e-week-view-layout.h"
#include "e-task-table.h"
#include "gnome-cal.h"
#include "print.h"
#include "art/jump.xpm"
typedef struct PrintCompItem PrintCompItem;
typedef struct PrintCalItem PrintCalItem;
struct PrintCompItem {
ECal *client;
ECalComponent *comp;
icaltimezone *zone;
gboolean use_24_hour_format;
};
struct PrintCalItem {
GnomeCalendar *gcal;
time_t start;
};
static double
evo_calendar_print_renderer_get_width (GtkPrintContext *context,
PangoFontDescription *font,
const gchar *text)
{
PangoLayout *layout;
gint layout_width, layout_height;
layout = gtk_print_context_create_pango_layout (context);
pango_layout_set_font_description (layout, font);
pango_layout_set_text (layout, text, -1);
pango_layout_set_indent (layout, 0);
pango_layout_get_size (layout, &layout_width, &layout_height);
g_object_unref (layout);
return pango_units_to_double (layout_width);
}
static gdouble
evo_calendar_print_renderer_get_height (GtkPrintContext *context,
PangoFontDescription *font,
const gchar *text)
{
PangoLayout *layout;
gint layout_width, layout_height;
layout = gtk_print_context_create_pango_layout (context);
pango_layout_set_font_description (layout, font);
pango_layout_set_text (layout, text, -1);
pango_layout_set_indent (layout, 0);
pango_layout_get_size (layout, &layout_width, &layout_height);
g_object_unref (layout);
return pango_units_to_double (layout_height);
}
static double
get_font_size (PangoFontDescription *font)
{
g_return_val_if_fail (font, 0.0);
return pango_units_to_double (pango_font_description_get_size (font));
}
/*
* Note that most dimensions are in points (1/72 of an inch) since that is
* what gnome-print uses.
*/
/* GtkHTML prints using a fixed margin. It has code to get the margins from
* gnome-print keys, but it's commented out. The corresponding code here
* doesn't seem to work either (getting zero margins), so we adopt
* gtkhtml's cheat. */
#define TEMP_MARGIN .05
/* The fonts to use */
#define FONT_FAMILY "Sans"
/* The font size to use for normal text. */
#define DAY_NORMAL_FONT_SIZE 12
#define WEEK_NORMAL_FONT_SIZE 12
#define MONTH_NORMAL_FONT_SIZE 8
/* The height of the header bar across the top of the Day, Week & Month views,
which contains the dates shown and the 2 small calendar months. */
#define HEADER_HEIGHT 80
/* The width of the small calendar months, the space from the right edge of
the header rectangle, and the space between the months. */
#define MIN_SMALL_MONTH_WIDTH 100
#define SMALL_MONTH_PAD 5
#define SMALL_MONTH_SPACING 20
/* The minimum number of rows we leave space for for the long events in the
day view. */
#define DAY_VIEW_MIN_ROWS_IN_TOP_DISPLAY 2
/* The row height for long events in the day view. */
#define DAY_VIEW_ROW_HEIGHT 14
/* The minutes per row in the day view printout. */
#define DAY_VIEW_MINS_PER_ROW 30
#define DAY_VIEW_ROWS ((60 / DAY_VIEW_MINS_PER_ROW) * 24)
/* The width of the column with all the times in it. */
#define DAY_VIEW_TIME_COLUMN_WIDTH 36
/* The space on the right of each event. */
#define DAY_VIEW_EVENT_X_PAD 8
/* Allowance for small errors in floating point comparisons. */
#define EPSILON 0.01
/* The weird month of September 1752, where 3 Sep through 13 Sep were
eliminated due to the Gregorian reformation. */
static const gint sept_1752[42] = {
0, 0, 1, 2, 14, 15, 16,
17, 18, 19, 20, 21, 22, 23,
24, 25, 26, 27, 28, 29, 30,
0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0
};
#define SEPT_1752_START 2 /* Start day within month */
#define SEPT_1752_END 20 /* End day within month */
struct pdinfo
{
gint days_shown;
time_t day_starts[E_DAY_VIEW_MAX_DAYS + 1];
GArray *long_events;
GArray *events[E_DAY_VIEW_MAX_DAYS];
gint start_hour;
gint end_hour;
gint start_minute_offset;
gint end_minute_offset;
gint rows;
gint mins_per_row;
guint8 cols_per_row[DAY_VIEW_ROWS];
gboolean use_24_hour_format;
icaltimezone *zone;
};
struct psinfo
{
gint days_shown;
time_t day_starts[E_WEEK_VIEW_MAX_WEEKS * 7 + 1];
GArray *events;
gint rows_per_cell;
gint rows_per_compressed_cell;
gint display_start_weekday;
gboolean multi_week_view;
gint weeks_shown;
gint month;
gboolean compress_weekend;
gboolean use_24_hour_format;
gdouble row_height;
gdouble header_row_height;
icaltimezone *zone;
};
/* Convenience function to help the transition to timezone functions.
It converts a time_t to a struct tm. */
static void
convert_timet_to_struct_tm (time_t time,
icaltimezone *zone,
struct tm *tm)
{
struct icaltimetype tt;
/* Convert it to an icaltimetype. */
tt = icaltime_from_timet_with_zone (time, FALSE, zone);
/* Fill in the struct tm. */
tm->tm_year = tt.year - 1900;
tm->tm_mon = tt.month - 1;
tm->tm_mday = tt.day;
tm->tm_hour = tt.hour;
tm->tm_min = tt.minute;
tm->tm_sec = tt.second;
tm->tm_isdst = tt.is_daylight;
tm->tm_wday = time_day_of_week (tt.day, tt.month - 1, tt.year);
}
/* Fills the 42-element days array with the day numbers for the specified
* month. Slots outside the bounds of the month are filled with zeros.
* The starting and ending indexes of the days are returned in the start
* and end arguments. */
static void
build_month (ECalModel *model,
gint month,
gint year,
gint *days,
gint *start,
gint *end)
{
gint i;
gint d_month, d_week, week_start_day;
/* Note that months are zero-based, so September is month 8 */
if ((year == 1752) && (month == 8)) {
memcpy (days, sept_1752, 42 * sizeof (gint));
if (start)
*start = SEPT_1752_START;
if (end)
*end = SEPT_1752_END;
return;
}
for (i = 0; i < 42; i++)
days[i] = 0;
d_month = time_days_in_month (year, month);
/* Get the start weekday in the month, 0=Sun to 6=Sat. */
d_week = time_day_of_week (1, month, year);
/* Get the configuration setting specifying which weekday we put on
the left column, 0=Sun to 6=Sat. */
week_start_day = e_cal_model_get_week_start_day (model);
/* Figure out which square we want to put the 1 in. */
d_week = (d_week + 7 - week_start_day) % 7;
for (i = 0; i < d_month; i++)
days[d_week + i] = i + 1;
if (start)
*start = d_week;
if (end)
*end = d_week + d_month - 1;
}
static PangoFontDescription *
get_font_for_size (double height, PangoWeight weight)
{
PangoFontDescription *desc;
gint size;
#define MAGIC_SCALE_FACTOR (0.86)
size = pango_units_from_double (height * MAGIC_SCALE_FACTOR);
desc = pango_font_description_new ();
pango_font_description_set_size (desc, size);
pango_font_description_set_weight (desc, weight);
pango_font_description_set_family_static (desc, FONT_FAMILY);
return desc;
}
/* Prints a rectangle, with or without a border, filled or outline, and
possibly with triangular arrows at one or both horizontal edges.
width = width of border, -ve means no border.
red,green,blue = bgcolor to fill, -ve means no fill.
left_triangle_width, right_triangle_width = width from edge of rectangle to
point of triangle, or -ve for no triangle. */
static void
print_border_with_triangles (GtkPrintContext *pc,
gdouble x1, gdouble x2,
gdouble y1, gdouble y2,
gdouble line_width,
gdouble red, gdouble green, gdouble blue,
gdouble left_triangle_width,
gdouble right_triangle_width)
{
cairo_t *cr = gtk_print_context_get_cairo_context (pc);
cairo_save (cr);
/* Fill in the interior of the rectangle, if desired. */
if (red >= -EPSILON && green >= -EPSILON && blue >= -EPSILON) {
cairo_move_to (cr, x1, y1);
if (left_triangle_width > 0.0)
cairo_line_to (cr, x1 - left_triangle_width,
(y1 + y2) / 2);
cairo_line_to (cr, x1, y2);
cairo_line_to (cr, x2, y2);
if (right_triangle_width > 0.0)
cairo_line_to (cr, x2 + right_triangle_width, (y1 + y2) / 2);
cairo_line_to (cr, x2, y1);
cairo_close_path (cr);
cairo_set_source_rgb (cr, red, green, blue);
cairo_fill (cr);
cairo_restore (cr);
cairo_save (cr);
}
/* Draw the outline, if desired. */
if (line_width >= EPSILON) {
cr = gtk_print_context_get_cairo_context (pc);
cairo_move_to (cr, x1, y1);
if (left_triangle_width > 0.0)
cairo_line_to (cr, x1 - left_triangle_width,
(y1 + y2) / 2);
cairo_line_to (cr, x1, y2);
cairo_line_to (cr, x2, y2);
if (right_triangle_width > 0.0)
cairo_line_to (cr, x2 + right_triangle_width,
(y1 + y2) / 2);
cairo_line_to (cr, x2, y1);
cairo_close_path (cr);
cairo_set_source_rgb (cr, 0, 0, 0);
cairo_set_line_width (cr, line_width);
cairo_stroke (cr);
}
cairo_restore (cr);
}
/* Prints a rectangle, with or without a border, and filled or outline.
width = width of border, -ve means no border.
fillcolor = shade of fill, -ve means no fill. */
static void
print_border_rgb (GtkPrintContext *pc,
gdouble x1, gdouble x2,
gdouble y1, gdouble y2,
gdouble line_width,
gdouble red, gdouble green, gdouble blue)
{
print_border_with_triangles (
pc, x1, x2, y1, y2, line_width,
red, green, blue, -1.0, -1.0);
}
static void
print_border (GtkPrintContext *pc,
gdouble x1, gdouble x2,
gdouble y1, gdouble y2,
gdouble line_width,
gdouble fillcolor)
{
print_border_rgb (
pc, x1, x2, y1, y2, line_width,
fillcolor, fillcolor, fillcolor);
}
static void
print_rectangle (GtkPrintContext *context,
gdouble x, gdouble y,
gdouble width, gdouble height,
gdouble red, gdouble green, gdouble blue)
{
cairo_t *cr = gtk_print_context_get_cairo_context (context);
cairo_save (cr);
cairo_rectangle (cr, x, y, width, height);
cairo_set_source_rgb (cr, red, green, blue);
cairo_fill (cr);
cairo_restore (cr);
}
/* Prints 1 line of aligned text in a box. It is centered vertically, and
the horizontal alignment can be either PANGO_ALIGN_LEFT, PANGO_ALIGN_RIGHT,
or PANGO_ALIGN_CENTER. */
static double
print_text (GtkPrintContext *context, PangoFontDescription *desc,
const gchar *text, PangoAlignment alignment,
gdouble x1, gdouble x2, gdouble y1, gdouble y2)
{
PangoLayout *layout;
gint layout_width, layout_height;
cairo_t *cr;
cr = gtk_print_context_get_cairo_context (context);
layout = gtk_print_context_create_pango_layout (context);
pango_layout_set_font_description (layout, desc);
pango_layout_set_alignment (layout, alignment);
pango_layout_set_text (layout, text, -1);
/* Grab the width before expanding the layout. */
pango_layout_get_size (layout, &layout_width, &layout_height);
pango_layout_set_width (layout, pango_units_from_double (x2 - x1));
cairo_save (cr);
/* Set a clipping rectangle. */
cairo_move_to (cr, x1, y1);
cairo_rectangle (cr, x1, y1, x2 - x1, y2 - y1);
cairo_clip (cr);
cairo_new_path (cr);
cairo_set_source_rgb (cr, 0, 0, 0);
cairo_move_to (cr, x1, y1);
pango_cairo_show_layout (cr, layout);
cairo_stroke (cr);
cairo_restore (cr);
g_object_unref (layout);
return pango_units_to_double (layout_width);
}
/* gets/frees the font for you, as a normal font */
static double
print_text_size (GtkPrintContext *context, const gchar *text,
PangoAlignment alignment, gdouble x1, gdouble x2,
gdouble y1, gdouble y2)
{
PangoFontDescription *font;
gdouble w;
font = get_font_for_size (ABS (y2 - y1) * 0.5, PANGO_WEIGHT_NORMAL);
w = print_text (context, font, text, alignment, x1, x2, y1, y2);
pango_font_description_free (font);
return w;
}
/* gets/frees the font for you, as a bold font */
static double
print_text_size_bold (GtkPrintContext *context, const gchar *text,
PangoAlignment alignment, gdouble x1, gdouble x2,
gdouble y1, gdouble y2)
{
PangoFontDescription *font;
gdouble w;
font = get_font_for_size (ABS (y2 - y1) * 0.5, PANGO_WEIGHT_BOLD);
w = print_text (context, font, text, alignment, x1, x2, y1, y2);
pango_font_description_free (font);
return w;
}
static void
titled_box (GtkPrintContext *context, const gchar *text,
PangoFontDescription *font, PangoAlignment alignment,
gdouble *x1, gdouble *y1, gdouble *x2, gdouble *y2,
gdouble linewidth)
{
gdouble size;
size = evo_calendar_print_renderer_get_height (context, font, text);
print_border (context, *x1, *x2, *y1, *y1 + size + 2, linewidth, 0.9);
print_border (context, *x1, *x2, *y1 + size + 2, *y2, linewidth, -1.0);
*x1 += 2;
*x2 -= 2;
*y2 += 2;
print_text (context, font, text, alignment, *x1, *x2, *y1 + 1.0, *y1 + size);
*y1 += size + 2;
}
static gboolean
get_show_week_numbers (void)
{
return e_shell_settings_get_boolean (e_shell_get_shell_settings (e_shell_get_default ()), "cal-show-week-numbers");
}
enum datefmt {
DATE_MONTH = 1 << 0,
DATE_DAY = 1 << 1,
DATE_DAYNAME = 1 << 2,
DATE_YEAR = 1 << 3
};
static const gchar *days[] = {
N_("1st"), N_("2nd"), N_("3rd"), N_("4th"), N_("5th"),
N_("6th"), N_("7th"), N_("8th"), N_("9th"), N_("10th"),
N_("11th"), N_("12th"), N_("13th"), N_("14th"), N_("15th"),
N_("16th"), N_("17th"), N_("18th"), N_("19th"), N_("20th"),
N_("21st"), N_("22nd"), N_("23rd"), N_("24th"), N_("25th"),
N_("26th"), N_("27th"), N_("28th"), N_("29th"), N_("30th"),
N_("31st")
};
/*
format the date 'nicely' and consistently for various headers
*/
static gchar *
format_date (struct tm *tm,
gint flags,
gchar *buffer,
gint bufflen)
{
gchar fmt[64];
fmt[0] = 0;
if (flags & DATE_DAYNAME) {
strcat(fmt, "%A");
}
if (flags & DATE_DAY) {
if (flags & DATE_DAYNAME)
strcat(fmt, " ");
strcat (fmt, gettext (days[tm->tm_mday-1]));
}
if (flags & DATE_MONTH) {
if (flags & (DATE_DAY|DATE_DAYNAME))
strcat(fmt, " ");
strcat(fmt, "%B");
if ((flags & (DATE_DAY|DATE_YEAR)) == (DATE_DAY|DATE_YEAR))
strcat(fmt, ",");
}
if (flags & DATE_YEAR) {
if (flags & (DATE_DAY|DATE_DAYNAME|DATE_MONTH))
strcat(fmt, " ");
strcat(fmt, "%Y");
}
e_utf8_strftime (buffer, bufflen, fmt, tm);
buffer[bufflen - 1] = '\0';
return buffer;
}
static gboolean
instance_cb (ECalComponent *comp,
time_t instance_start,
time_t instance_end,
gpointer data)
{
gboolean *found = ((ECalModelGenerateInstancesData *) data)->cb_data;
*found = TRUE;
return FALSE;
}
/* Translators: These are workday abbreviations, e.g. Su=Sunday and Th=thursday */
const gchar *daynames[] =
{ N_("Su"), N_("Mo"), N_("Tu"), N_("We"),
N_("Th"), N_("Fr"), N_("Sa") };
static gdouble
calc_small_month_width (GtkPrintContext *context, gdouble for_height)
{
PangoFontDescription *font_bold;
gdouble res = 0.0;
gint ii;
font_bold = get_font_for_size (for_height / 7.4, PANGO_WEIGHT_BOLD);
res = MAX (evo_calendar_print_renderer_get_width (context, font_bold, "23"), res);
for (ii = 0; ii < 7; ii++) {
res = MAX (evo_calendar_print_renderer_get_width (context, font_bold, _(daynames[ii])), res);
}
pango_font_description_free (font_bold);
/* res is max cell width, thus multiply it with column count plus some space between columns */
res = (res + 1.0) * (7 + (get_show_week_numbers () ? 1 : 0)) - 1.0;
if (res < MIN_SMALL_MONTH_WIDTH)
res = MIN_SMALL_MONTH_WIDTH;
return res;
}
/*
print out the month small, embolden any days with events.
*/
static void
print_month_small (GtkPrintContext *context, GnomeCalendar *gcal, time_t month,
gdouble x1, gdouble y1, gdouble x2, gdouble y2,
gint titleflags, time_t greystart, time_t greyend,
gint bordertitle)
{
icaltimezone *zone;
PangoFontDescription *font, *font_bold, *font_normal;
ECalModel *model;
time_t now, next;
gint x, y;
gint days[42];
gint day, weekday, week_start_day;
gchar buf[100];
struct tm tm;
gdouble font_size;
gdouble header_size, col_width, row_height, text_xpad, w;
gdouble cell_top, cell_bottom, cell_left, cell_right, text_right;
gboolean week_numbers;
cairo_t *cr;
model = gnome_calendar_get_model (gcal);
zone = e_cal_model_get_timezone (model);
week_numbers = get_show_week_numbers ();
/* Print the title, e.g. 'June 2001', in the top 16% of the area. */
convert_timet_to_struct_tm (month, zone, &tm);
format_date (&tm, titleflags, buf, 100);
header_size = ABS (y2 - y1) * 0.16;
font = get_font_for_size (header_size, PANGO_WEIGHT_BOLD);
if (bordertitle)
print_border (context, x1, x2, y1, y1 + header_size, 1.0, 0.9);
print_text (context, font, buf, PANGO_ALIGN_CENTER, x1, x2,
y1, y1 + header_size);
pango_font_description_free (font);
y1 += header_size;
col_width = (x2 - x1) / (7 + (week_numbers ? 1 : 0));
/* The top row with the day abbreviations gets an extra bit of
vertical space around it. */
row_height = ABS (y2 - y1) / 7.4;
/* First we need to calculate a reasonable font size. We start with a
rough guess of just under the height of each row. */
font_size = row_height;
/* get month days */
convert_timet_to_struct_tm (month, zone, &tm);
build_month (model, tm.tm_mon, tm.tm_year + 1900, days, NULL, NULL);
font_normal = get_font_for_size (font_size, PANGO_WEIGHT_NORMAL);
font_bold = get_font_for_size (font_size, PANGO_WEIGHT_BOLD);
/* Get a reasonable estimate of the largest number we will need,
and use it to calculate the offset from the right edge of the
cell that we should put the numbers. */
w = evo_calendar_print_renderer_get_width (context, font_bold, "23");
text_xpad = (col_width - w) / 2;
cr = gtk_print_context_get_cairo_context (context);
cairo_set_source_rgb (cr, 0, 0, 0);
/* Print the abbreviated day names across the top in bold. */
week_start_day = e_cal_model_get_week_start_day (model);
weekday = week_start_day;
for (x = 0; x < 7; x++) {
print_text (
context, font_bold,
_(daynames[weekday]), PANGO_ALIGN_RIGHT,
x1 + (x + (week_numbers ? 1 : 0)) * col_width, x1 + (x + 1 + (week_numbers ? 1 : 0)) * col_width,
y1, y1 + row_height * 1.4);
weekday = (weekday + 1) % 7;
}
y1 += row_height * 1.4;
now = time_month_begin_with_zone (month, zone);
for (y = 0; y < 6; y++) {
cell_top = y1 + y * row_height;
cell_bottom = cell_top + row_height;
if (week_numbers) {
cell_left = x1;
/* We add a 0.05 to make sure the cells meet up with
each other. Otherwise you sometimes get lines
between them which looks bad. Maybe I'm not using
coords in the way gnome-print expects. */
cell_right = cell_left + col_width + 0.05;
text_right = cell_right - text_xpad;
/* last week can be empty */
for (x = 0; x < 7; x++) {
day = days[y * 7 + x];
if (day != 0)
break;
}
if (day != 0) {
time_t week_begin = time_week_begin_with_zone (now, week_start_day, zone);
convert_timet_to_struct_tm (week_begin, zone, &tm);
/* month in e_calendar_item_get_week_number is also zero-based */
sprintf (buf, "%d", e_calendar_item_get_week_number (NULL, tm.tm_mday, tm.tm_mon, tm.tm_year + 1900));
print_text (context, font_normal, buf, PANGO_ALIGN_RIGHT,
cell_left, text_right,
cell_top, cell_bottom);
}
}
for (x = 0; x < 7; x++) {
cell_left = x1 + (x + (week_numbers ? 1 : 0)) * col_width;
/* We add a 0.05 to make sure the cells meet up with
each other. Otherwise you sometimes get lines
between them which looks bad. Maybe I'm not using
coords in the way gnome-print expects. */
cell_right = cell_left + col_width + 0.05;
text_right = cell_right - text_xpad;
day = days[y * 7 + x];
if (day != 0) {
gboolean found = FALSE;
sprintf (buf, "%d", day);
/* this is a slow messy way to do this ... but easy ... */
e_cal_model_generate_instances (gnome_calendar_get_model (gcal), now,
time_day_end_with_zone (now, zone),
instance_cb, &found);
font = found ? font_bold : font_normal;
next = time_add_day_with_zone (now, 1, zone);
if ((now >= greystart && now < greyend)
|| (greystart >= now && greystart < next)) {
print_border (context,
cell_left, cell_right,
cell_top, cell_bottom,
-1.0, 0.75);
}
print_text (context, font, buf, PANGO_ALIGN_RIGHT,
cell_left, text_right,
cell_top, cell_bottom);
now = next;
}
}
}
pango_font_description_free (font_normal);
pango_font_description_free (font_bold);
}
/* wraps text into the print context, not taking up more than its allowed space */
static double
bound_text (GtkPrintContext *context,
PangoFontDescription *font,
const gchar *text, gint len,
gdouble x1, gdouble y1,
gdouble x2, gdouble y2,
gboolean can_wrap, gdouble *last_page_start, gint *pages)
{
PangoLayout *layout;
gint layout_width, layout_height;
cairo_t *cr;
cr = gtk_print_context_get_cairo_context (context);
layout = gtk_print_context_create_pango_layout (context);
pango_layout_set_font_description (layout, font);
pango_layout_set_text (layout, text, len);
pango_layout_set_width (layout, pango_units_from_double (x2 - x1));
if (can_wrap)
pango_layout_set_wrap (layout, PANGO_WRAP_WORD_CHAR);
pango_layout_get_size (layout, &layout_width, &layout_height);
if (last_page_start &&
y1 + pango_units_to_double (layout_height) >
y2 + (*last_page_start)) {
/* draw this on new page */
if (pages)
*pages = *pages + 1;
*last_page_start = *last_page_start + y2;
y1 = *last_page_start + 10.0;
}
if (!last_page_start || (y1 >= 0.0 && y1 < y2)) {
cairo_save (cr);
/* Set a clipping rectangle. */
cairo_move_to (cr, x1, y1);
cairo_rectangle (cr, x1, y1, x2 - x1, y2 - y1);
cairo_clip (cr);
cairo_new_path (cr);
cairo_move_to (cr, x1, y1);
pango_cairo_show_layout (cr, layout);
cairo_stroke (cr);
cairo_restore (cr);
}
g_object_unref (layout);
return y1 + pango_units_to_double (layout_height);
}
/* Draw the borders, lines, and times down the left of the day view. */
static void
print_day_background (GtkPrintContext *context, GnomeCalendar *gcal,
time_t whence, struct pdinfo *pdi,
double left, double right, double top, double bottom)
{
ECalModel *model;
PangoFontDescription *font_hour, *font_minute;
gdouble yinc, y;
gdouble width = DAY_VIEW_TIME_COLUMN_WIDTH;
gdouble font_size, max_font_size, hour_font_size, minute_font_size;
gchar buf[20];
const gchar *minute;
gboolean use_24_hour;
gint i, hour, row;
gdouble hour_minute_x, hour_minute_width;
cairo_t *cr;
model = gnome_calendar_get_model (gcal);
use_24_hour = e_cal_model_get_use_24_hour_format (model);
/* Fill the time column in light-gray. */
print_border (context, left, left + width, top, bottom, -1.0, 0.9);
/* Draw the border around the entire view. */
cr = gtk_print_context_get_cairo_context (context);
cairo_set_source_rgb (cr, 0, 0, 0);
print_border (context, left, right, top, bottom, 1.0, -1.0);
/* Draw the vertical line on the right of the time column. */
cr = gtk_print_context_get_cairo_context (context);
cairo_set_line_width (cr, 0.0);
cairo_move_to (cr, left + width, bottom);
cairo_line_to (cr, left + width, top);
cairo_stroke (cr);
/* Calculate the row height. */
if (top > bottom)
yinc = (top - bottom) / (pdi->end_hour - pdi->start_hour);
else
yinc = (bottom - top) / (pdi->end_hour - pdi->start_hour);
/* Get the 2 fonts we need. */
font_size = yinc * 0.6;
max_font_size = width * 0.45;
hour_font_size = MIN (font_size, max_font_size);
font_hour = get_font_for_size (hour_font_size, PANGO_WEIGHT_BOLD);
font_size = yinc * 0.33;
max_font_size = width * 0.2;
minute_font_size = MIN (font_size, max_font_size);
font_minute = get_font_for_size (minute_font_size, PANGO_WEIGHT_BOLD);
hour_minute_width = evo_calendar_print_renderer_get_width (context, font_minute, use_24_hour ? "00" : _("am"));
if (!use_24_hour)
hour_minute_width = MAX (hour_minute_width, evo_calendar_print_renderer_get_width (context, font_minute, _("pm")));
row = 0;
hour_minute_x = left + width - hour_minute_width - 3;
for (i = pdi->start_hour; i < pdi->end_hour; i++) {
y = top + yinc * (row + 1);
cr = gtk_print_context_get_cairo_context (context);
cairo_set_source_rgb (cr, 0, 0, 0);
if (use_24_hour) {
hour = i;
minute = "00";
} else {
if (i < 12)
minute = _("am");
else
minute = _("pm");
hour = i % 12;
if (hour == 0)
hour = 12;
}
/* the hour label/minute */
sprintf (buf, "%d", hour);
print_text (context, font_hour, buf, PANGO_ALIGN_RIGHT,
left, hour_minute_x,
y - yinc, y - yinc + hour_font_size);
print_text (context, font_minute, minute, PANGO_ALIGN_LEFT,
hour_minute_x, left + width - 3,
y - yinc, y - yinc + minute_font_size);
/* Draw the horizontal line between hours, across the entire
width of the day view. */
cr = gtk_print_context_get_cairo_context (context);
cairo_move_to (cr, left, y);
cairo_line_to (cr, right, y);
cairo_set_line_width (cr, 1);
cairo_stroke (cr);
/* Draw the horizontal line for the 1/2-hours, across the
entire width except for part of the time column. */
cairo_move_to (cr, left + width * 0.6, y - yinc / 2);
cairo_line_to (cr, right, y - yinc / 2);
cairo_set_line_width (cr, 1);
cairo_stroke (cr);
row++;
}
pango_font_description_free (font_hour);
pango_font_description_free (font_minute);
}
/* This adds one event to the view, adding it to the appropriate array. */
static gint
print_day_add_event (ECalModelComponent *comp_data,
time_t start,
time_t end,
icaltimezone *zone,
gint days_shown,
time_t *day_starts,
GArray *long_events,
GArray **events)
{
EDayViewEvent event;
gint day, offset;
struct icaltimetype start_tt, end_tt;
#if 0
g_print ("Day view lower: %s", ctime (&day_starts[0]));
g_print ("Day view upper: %s", ctime (&day_starts[days_shown]));
g_print ("Event start: %s", ctime (&start));
g_print ("Event end : %s\n", ctime (&end));
#endif
/* Check that the event times are valid. */
g_return_val_if_fail (start <= end, -1);
g_return_val_if_fail (start < day_starts[days_shown], -1);
g_return_val_if_fail (end > day_starts[0], -1);
start_tt = icaltime_from_timet_with_zone (start, FALSE, zone);
end_tt = icaltime_from_timet_with_zone (end, FALSE, zone);
event.comp_data = comp_data;
event.start = start;
event.end = end;
event.canvas_item = NULL;
/* Calculate the start & end minute, relative to the top of the
display. */
/*offset = day_view->first_hour_shown * 60
+ day_view->first_minute_shown;*/
offset = 0;
event.start_minute = start_tt.hour * 60 + start_tt.minute - offset;
event.end_minute = end_tt.hour * 60 + end_tt.minute - offset;
event.start_row_or_col = 0;
event.num_columns = 0;
/* Find out which array to add the event to. */
for (day = 0; day < days_shown; day++) {
if (start >= day_starts[day] && end <= day_starts[day + 1]) {
/* Special case for when the appointment ends at
midnight, i.e. the start of the next day. */
if (end == day_starts[day + 1]) {
/* If the event last the entire day, then we
skip it here so it gets added to the top
canvas. */
if (start == day_starts[day])
break;
event.end_minute = 24 * 60;
}
g_array_append_val (events[day], event);
return day;
}
}
/* The event wasn't within one day so it must be a long event,
i.e. shown in the top canvas. */
g_array_append_val (long_events, event);
return E_DAY_VIEW_LONG_EVENT;
}
static gboolean
print_day_details_cb (ECalComponent *comp, time_t istart, time_t iend,
gpointer data)
{
ECalModelGenerateInstancesData *mdata = (ECalModelGenerateInstancesData *) data;
struct pdinfo *pdi = (struct pdinfo *) mdata->cb_data;
print_day_add_event (mdata->comp_data, istart, iend,
pdi->zone, pdi->days_shown, pdi->day_starts,
pdi->long_events, pdi->events);
return TRUE;
}
static void
free_event_array (GArray *array)
{
EDayViewEvent *event;
gint event_num;
for (event_num = 0; event_num < array->len; event_num++) {
event = &g_array_index (array, EDayViewEvent, event_num);
if (event->canvas_item)
g_object_run_dispose (G_OBJECT (event->canvas_item));
}
g_array_set_size (array, 0);
}
static const gchar *
get_type_as_string (icalparameter_cutype cutype)
{
const gchar *res;
switch (cutype) {
case ICAL_CUTYPE_NONE: res = NULL; break;
case ICAL_CUTYPE_INDIVIDUAL: res = _("Individual"); break;
case ICAL_CUTYPE_GROUP: res = _("Group"); break;
case ICAL_CUTYPE_RESOURCE: res = _("Resource"); break;
case ICAL_CUTYPE_ROOM: res = _("Room"); break;
default: res = _("Unknown"); break;
}
return res;
}
static const gchar *
get_role_as_string (icalparameter_role role)
{
const gchar *res;
switch (role) {
case ICAL_ROLE_NONE: res = NULL; break;
case ICAL_ROLE_CHAIR: res = _("Chair"); break;
case ICAL_ROLE_REQPARTICIPANT: res = _("Required Participant"); break;
case ICAL_ROLE_OPTPARTICIPANT: res = _("Optional Participant"); break;
case ICAL_ROLE_NONPARTICIPANT: res = _("Non-Participant"); break;
default: res = _("Unknown"); break;
}
return res;
}
static double
print_attendees (GtkPrintContext *context, PangoFontDescription *font, cairo_t *cr,
double left, double right, double top, double bottom,
ECalComponent *comp, gint page_nr, gint *pages)
{
GSList *attendees = NULL, *l;
g_return_val_if_fail (context != NULL, top);
g_return_val_if_fail (font != NULL, top);
g_return_val_if_fail (cr != NULL, top);
e_cal_component_get_attendee_list (comp, &attendees);
for (l = attendees; l; l = l->next) {
ECalComponentAttendee *attendee = l->data;
if (attendee && attendee->value && *attendee->value) {
GString *text;
const gchar *tmp;
tmp = get_type_as_string (attendee->cutype);
text = g_string_new (tmp ? tmp : "");
if (tmp)
g_string_append (text, " ");
if (attendee->cn && *attendee->cn)
g_string_append (text, attendee->cn);
else {
/* it's usually in form of "mailto:email@domain" */
tmp = strchr (attendee->value, ':');
g_string_append (text, tmp ? tmp + 1 : attendee->value);
}
tmp = get_role_as_string (attendee->role);
if (tmp) {
g_string_append (text, " (");
g_string_append (text, tmp);
g_string_append (text, ")");
}
if (top > bottom) {
top = 10.0;
cairo_show_page (cr);
}
top = bound_text (
context, font, text->str, -1, left + 40.0,
top, right, bottom, FALSE, NULL, pages);
g_string_free (text, TRUE);
}
}
e_cal_component_free_attendee_list (attendees);
return top;
}
static gchar *
get_summary_with_location (icalcomponent *icalcomp)
{
const gchar *summary, *location;
gchar *text;
g_return_val_if_fail (icalcomp != NULL, NULL);
summary = icalcomponent_get_summary (icalcomp);
if (summary == NULL)
summary = "";
location = icalcomponent_get_location (icalcomp);
if (location && *location) {
text = g_strdup_printf ("%s (%s)", summary, location);
} else {
text = g_strdup (summary);
}
return text;
}
static void
print_day_long_event (GtkPrintContext *context,
PangoFontDescription *font,
gdouble left,
gdouble right,
gdouble top,
gdouble bottom,
gdouble row_height,
EDayViewEvent *event,
struct pdinfo *pdi,
ECalModel *model)
{
gdouble x1, x2, y1, y2;
gdouble left_triangle_width = -1.0, right_triangle_width = -1.0;
gchar *text;
gchar buffer[32];
struct tm date_tm;
gdouble red, green, blue;
if (!is_comp_data_valid (event))
return;
/* If the event starts before the first day being printed, draw a
triangle. (Note that I am assuming we are just showing 1 day at
the moment.) */
if (event->start < pdi->day_starts[0])
left_triangle_width = 4;
/* If the event ends after the last day being printed, draw a
triangle. */
if (event->end > pdi->day_starts[1])
right_triangle_width = 4;
x1 = left + 10;
x2 = right - 10;
y1 = top + event->start_row_or_col * row_height + 1;
y2 = y1 + row_height - 1;
red = green = blue = 0.95;
e_cal_model_get_rgb_color_for_component (
model, event->comp_data, &red, &green, &blue);
print_border_with_triangles (context, x1, x2, y1, y2, 0.5, red, green, blue,
left_triangle_width,
right_triangle_width);
/* If the event starts after the first day being printed, we need to
print the start time. */
if (event->start > pdi->day_starts[0]) {
date_tm.tm_year = 2001;
date_tm.tm_mon = 0;
date_tm.tm_mday = 1;
date_tm.tm_hour = event->start_minute / 60;
date_tm.tm_min = event->start_minute % 60;
date_tm.tm_sec = 0;
date_tm.tm_isdst = -1;
e_time_format_time (&date_tm, pdi->use_24_hour_format, FALSE,
buffer, sizeof (buffer));
x1 += 4;
x1 += print_text (context, font, buffer, PANGO_ALIGN_LEFT, x1, x2, y1, y2);
}
/* If the event ends before the end of the last day being printed,
we need to print the end time. */
if (event->end < pdi->day_starts[1]) {
date_tm.tm_year = 2001;
date_tm.tm_mon = 0;
date_tm.tm_mday = 1;
date_tm.tm_hour = event->end_minute / 60;
date_tm.tm_min = event->end_minute % 60;
date_tm.tm_sec = 0;
date_tm.tm_isdst = -1;
e_time_format_time (&date_tm, pdi->use_24_hour_format, FALSE,
buffer, sizeof (buffer));
x2 -= 4;
x2 -= print_text (context, font, buffer, PANGO_ALIGN_RIGHT, x1, x2, y1, y2);
}
/* Print the text. */
text = get_summary_with_location (event->comp_data->icalcomp);
x1 += 4;
x2 -= 4;
print_text (context, font, text, PANGO_ALIGN_CENTER, x1, x2, y1, y2);
g_free (text);
}
static void
print_day_event (GtkPrintContext *context, PangoFontDescription *font,
double left, double right, double top, double bottom,
EDayViewEvent *event, struct pdinfo *pdi, ECalModel *model)
{
gdouble x1, x2, y1, y2, col_width, row_height;
gint start_offset, end_offset, start_row, end_row;
gchar *text, start_buffer[32], end_buffer[32];
gboolean display_times = FALSE;
struct tm date_tm;
gdouble red, green, blue;
if (!is_comp_data_valid (event))
return;
if ((event->start_minute >= pdi->end_minute_offset)
|| (event->end_minute <= pdi->start_minute_offset))
return;
start_offset = event->start_minute - pdi->start_minute_offset;
end_offset = event->end_minute - pdi->start_minute_offset;
start_row = start_offset / pdi->mins_per_row;
start_row = MAX (0, start_row);
end_row = (end_offset - 1) / pdi->mins_per_row;
end_row = MIN (pdi->rows - 1, end_row);
col_width = (right - left) /
pdi->cols_per_row[event->start_minute / pdi->mins_per_row];
if (start_offset != start_row * pdi->mins_per_row
|| end_offset != (end_row + 1) * pdi->mins_per_row)
display_times = TRUE;
x1 = left + event->start_row_or_col * col_width;
x2 = x1 + event->num_columns * col_width - DAY_VIEW_EVENT_X_PAD;
row_height = (bottom - top) / pdi->rows;
y1 = top + start_row * row_height;
y2 = top + (end_row + 1) * row_height;
#if 0
g_print ("Event: %g,%g %g,%g\n row_height: %g start_row: %i top: %g rows: %i\n",
x1, y1, x2, y2, row_height, start_row, top, pdi->rows);
#endif
red = green = blue = 0.95;
e_cal_model_get_rgb_color_for_component (
model, event->comp_data, &red, &green, &blue);
print_border_rgb (context, x1, x2, y1, y2, 1.0, red, green, blue);
text = get_summary_with_location (event->comp_data->icalcomp);
if (display_times) {
gchar *t = NULL;
date_tm.tm_year = 2001;
date_tm.tm_mon = 0;
date_tm.tm_mday = 1;
date_tm.tm_hour = event->start_minute / 60;
date_tm.tm_min = event->start_minute % 60;
date_tm.tm_sec = 0;
date_tm.tm_isdst = -1;
e_time_format_time (&date_tm, pdi->use_24_hour_format, FALSE,
start_buffer, sizeof (start_buffer));
date_tm.tm_hour = event->end_minute / 60;
date_tm.tm_min = event->end_minute % 60;
e_time_format_time (&date_tm, pdi->use_24_hour_format, FALSE,
end_buffer, sizeof (end_buffer));
t = text;
text = g_strdup_printf ("%s - %s %s ", start_buffer,
end_buffer, text);
g_free (t);
}
bound_text (context, font, text, -1, x1 + 2, y1, x2 - 2, y2, FALSE, NULL, NULL);
g_free (text);
}
static void
print_day_details (GtkPrintContext *context, GnomeCalendar *gcal, time_t whence,
double left, double right, double top, double bottom)
{
ECalModel *model;
icaltimezone *zone;
EDayViewEvent *event;
PangoFontDescription *font;
time_t start, end;
struct pdinfo pdi;
gint rows_in_top_display, i;
gdouble font_size, max_font_size;
cairo_t *cr;
GdkPixbuf *pixbuf = NULL;
#define LONG_DAY_EVENTS_TOP_SPACING 4
#define LONG_DAY_EVENTS_BOTTOM_SPACING 2
model = gnome_calendar_get_model (gcal);
zone = e_cal_model_get_timezone (model);
start = time_day_begin_with_zone (whence, zone);
end = time_day_end_with_zone (start, zone);
pdi.days_shown = 1;
pdi.day_starts[0] = start;
pdi.day_starts[1] = end;
pdi.long_events = g_array_new (FALSE, FALSE, sizeof (EDayViewEvent));
pdi.events[0] = g_array_new (FALSE, FALSE, sizeof (EDayViewEvent));
pdi.start_hour = e_cal_model_get_work_day_start_hour (model);
pdi.end_hour = e_cal_model_get_work_day_end_hour (model);
if (e_cal_model_get_work_day_end_minute (model) != 0)
pdi.end_hour++;
pdi.rows = (pdi.end_hour - pdi.start_hour) * 2;
pdi.mins_per_row = 30;
pdi.start_minute_offset = pdi.start_hour * 60;
pdi.end_minute_offset = pdi.end_hour * 60;
pdi.use_24_hour_format = e_cal_model_get_use_24_hour_format (model);
pdi.zone = e_cal_model_get_timezone (model);
/* Get the events from the server. */
e_cal_model_generate_instances (model, start, end, print_day_details_cb, &pdi);
qsort (pdi.long_events->data, pdi.long_events->len,
sizeof (EDayViewEvent), e_day_view_event_sort_func);
qsort (pdi.events[0]->data, pdi.events[0]->len,
sizeof (EDayViewEvent), e_day_view_event_sort_func);
/* Also print events outside of work hours */
if (pdi.events[0]->len > 0) {
struct icaltimetype tt;
event = &g_array_index (pdi.events[0], EDayViewEvent, 0);
tt = icaltime_from_timet_with_zone (event->start, FALSE, zone);
if (tt.hour < pdi.start_hour)
pdi.start_hour = tt.hour;
pdi.start_minute_offset = pdi.start_hour * 60;
event = &g_array_index (pdi.events[0], EDayViewEvent, pdi.events[0]->len - 1);
tt = icaltime_from_timet_with_zone (event->end, FALSE, zone);
if (tt.hour > pdi.end_hour || tt.hour == 0) {
pdi.end_hour = tt.hour ? tt.hour : 24;
if (tt.minute > 0)
pdi.end_hour++;
}
pdi.end_minute_offset = pdi.end_hour * 60;
pdi.rows = (pdi.end_hour - pdi.start_hour) * 2;
}
/* Lay them out the long events, across the top of the page. */
e_day_view_layout_long_events (pdi.long_events, pdi.days_shown,
pdi.day_starts, &rows_in_top_display);
/*Print the long events. */
font = get_font_for_size (12, PANGO_WEIGHT_NORMAL);
/* We always leave space for DAY_VIEW_MIN_ROWS_IN_TOP_DISPLAY in the
top display, but we may have more rows than that, in which case
the main display area will be compressed. */
/* Limit long day event to half the height of the panel */
rows_in_top_display = MIN (MAX (rows_in_top_display,
DAY_VIEW_MIN_ROWS_IN_TOP_DISPLAY),
(bottom-top)*0.5/DAY_VIEW_ROW_HEIGHT);
if (rows_in_top_display > pdi.long_events->len)
rows_in_top_display = pdi.long_events->len;
for (i = 0; i < rows_in_top_display && i < pdi.long_events->len; i++) {
event = &g_array_index (pdi.long_events, EDayViewEvent, i);
print_day_long_event (
context, font, left, right,
top + LONG_DAY_EVENTS_TOP_SPACING, bottom,
DAY_VIEW_ROW_HEIGHT, event, &pdi, model);
}
if (rows_in_top_display < pdi.long_events->len) {
/* too many events */
cairo_t *cr = gtk_print_context_get_cairo_context (context);
gint x, y;
if (!pixbuf) {
const gchar **xpm = (const gchar **)jump_xpm;
/* this ugly thing is here only to get rid of compiler warning
about unused 'jump_xpm_focused' */
if (pixbuf)
xpm = (const gchar **)jump_xpm_focused;
pixbuf = gdk_pixbuf_new_from_xpm_data (xpm);
}
/* Right align - 10 comes from print_day_long_event too */
x = right - gdk_pixbuf_get_width (pixbuf) * 0.5 - 10;
/* Placing '...' over the last all day event entry printed. '-1 -1' comes
from print_long_day_event (top/bottom spacing in each cell) */
y = top + LONG_DAY_EVENTS_TOP_SPACING
+ DAY_VIEW_ROW_HEIGHT * (i - 1)
+ (DAY_VIEW_ROW_HEIGHT - 1 - 1) * 0.5;
cairo_save (cr);
cairo_scale (cr, 0.5, 0.5);
gdk_cairo_set_source_pixbuf (cr, pixbuf, x * 2.0, y * 2.0);
cairo_paint (cr);
cairo_restore (cr);
}
if (!rows_in_top_display)
rows_in_top_display++;
/* Draw the border around the long events. */
cr = gtk_print_context_get_cairo_context (context);
cairo_set_source_rgb (cr, 0, 0, 0);
print_border (
context, left, right,
top, top + rows_in_top_display * DAY_VIEW_ROW_HEIGHT +
LONG_DAY_EVENTS_TOP_SPACING + LONG_DAY_EVENTS_BOTTOM_SPACING,
1.0, -1.0);
/* Adjust the area containing the main display. */
top += rows_in_top_display * DAY_VIEW_ROW_HEIGHT
+ LONG_DAY_EVENTS_TOP_SPACING
+ LONG_DAY_EVENTS_BOTTOM_SPACING;
/* Draw the borders, lines, and times down the left. */
print_day_background (context, gcal, whence, &pdi,
left, right, top, bottom);
/* Now adjust to get rid of the time column. */
left += DAY_VIEW_TIME_COLUMN_WIDTH;
/* lay out the short events, within the day. */
e_day_view_layout_day_events (pdi.events[0], DAY_VIEW_ROWS,
DAY_VIEW_MINS_PER_ROW, pdi.cols_per_row, -1);
/* print the short events. */
if (top > bottom )
max_font_size = ((top - bottom) / pdi.rows) - 4;
else
max_font_size = ((bottom - top ) / pdi.rows) - 4;
font_size = MIN (DAY_NORMAL_FONT_SIZE, max_font_size);
font = get_font_for_size (font_size, PANGO_WEIGHT_NORMAL);
for (i = 0; i < pdi.events[0]->len; i++) {
event = &g_array_index (pdi.events[0], EDayViewEvent, i);
print_day_event (context, font, left, right, top, bottom,
event, &pdi, model);
}
/* Free everything. */
if (pixbuf)
g_object_unref (pixbuf);
free_event_array (pdi.long_events);
pango_font_description_free (font);
g_array_free (pdi.long_events, TRUE);
free_event_array (pdi.events[0]);
g_array_free (pdi.events[0], TRUE);
}
/* Returns TRUE if the event is a one-day event (i.e. not a long event). */
static gboolean
print_is_one_day_week_event (EWeekViewEvent *event,
EWeekViewEventSpan *span,
time_t *day_starts)
{
if (event->start == day_starts[span->start_day]
&& event->end == day_starts[span->start_day + 1])
return FALSE;
if (span->num_days == 1
&& event->start >= day_starts[span->start_day]
&& event->end <= day_starts[span->start_day + 1])
return TRUE;
return FALSE;
}
static void
print_week_long_event (GtkPrintContext *context, PangoFontDescription *font,
struct psinfo *psi,
double x1, double x2, double y1, double row_height,
EWeekViewEvent *event, EWeekViewEventSpan *span,
gchar *text, double red, double green, double blue)
{
gdouble left_triangle_width = -1.0, right_triangle_width = -1.0;
struct tm date_tm;
gchar buffer[32];
/* If the event starts before the first day of the span, draw a
triangle to indicate it continues. */
if (event->start < psi->day_starts[span->start_day])
left_triangle_width = 4;
/* If the event ends after the last day of the span, draw a
triangle. */
if (event->end > psi->day_starts[span->start_day + span->num_days])
right_triangle_width = 4;
print_border_with_triangles (
context, x1, x2, y1, y1 + row_height, 0.0, red, green, blue,
left_triangle_width, right_triangle_width);
/* If the event starts after the first day being printed, we need to
print the start time. */
if (event->start > psi->day_starts[span->start_day]) {
date_tm.tm_year = 2001;
date_tm.tm_mon = 0;
date_tm.tm_mday = 1;
date_tm.tm_hour = event->start_minute / 60;
date_tm.tm_min = event->start_minute % 60;
date_tm.tm_sec = 0;
date_tm.tm_isdst = -1;
e_time_format_time (&date_tm, psi->use_24_hour_format, FALSE,
buffer, sizeof (buffer));
x1 += 4;
x1 += print_text_size (
context, buffer, PANGO_ALIGN_LEFT,
x1, x2, y1, y1 + row_height);
}
/* If the event ends before the end of the last day being printed,
we need to print the end time. */
if (event->end < psi->day_starts[span->start_day + span->num_days]) {
date_tm.tm_year = 2001;
date_tm.tm_mon = 0;
date_tm.tm_mday = 1;
date_tm.tm_hour = event->end_minute / 60;
date_tm.tm_min = event->end_minute % 60;
date_tm.tm_sec = 0;
date_tm.tm_isdst = -1;
e_time_format_time (&date_tm, psi->use_24_hour_format, FALSE,
buffer, sizeof (buffer));
x2 -= 4;
x2 -= print_text_size (
context, buffer, PANGO_ALIGN_RIGHT,
x1, x2, y1, y1 + row_height);
}
x1 += 4;
x2 -= 4;
print_text_size (context, text, PANGO_ALIGN_CENTER, x1, x2, y1, y1 + row_height);
}
static void
print_week_day_event (GtkPrintContext *context, PangoFontDescription *font,
struct psinfo *psi,
double x1, double x2, double y1, double row_height,
EWeekViewEvent *event, EWeekViewEventSpan *span,
gchar *text, double red, double green, double blue)
{
struct tm date_tm;
gchar buffer[32];
date_tm.tm_year = 2001;
date_tm.tm_mon = 0;
date_tm.tm_mday = 1;
date_tm.tm_hour = event->start_minute / 60;
date_tm.tm_min = event->start_minute % 60;
date_tm.tm_sec = 0;
date_tm.tm_isdst = -1;
e_time_format_time (&date_tm, psi->use_24_hour_format, FALSE,
buffer, sizeof (buffer));
print_rectangle (context, x1, y1, x2 - x1, row_height, red, green, blue);
x1 += print_text_size (
context, buffer, PANGO_ALIGN_LEFT,
x1, x2, y1, y1 + row_height) + 4;
if (psi->weeks_shown <= 2) {
date_tm.tm_hour = event->end_minute / 60;
date_tm.tm_min = event->end_minute % 60;
e_time_format_time (&date_tm, psi->use_24_hour_format, FALSE,
buffer, sizeof (buffer));
print_rectangle (context, x1, y1, x2 - x1, row_height, red, green, blue);
x1 += print_text_size (
context, buffer, PANGO_ALIGN_LEFT,
x1, x2, y1, y1 + row_height) + 4;
}
print_text_size (
context, text, PANGO_ALIGN_LEFT,
x1, x2, y1, y1 + row_height);
}
static void
print_week_event (GtkPrintContext *context, PangoFontDescription *font,
struct psinfo *psi,
double left, double top,
double cell_width, double cell_height,
ECalModel *model,
EWeekViewEvent *event, GArray *spans)
{
EWeekViewEventSpan *span;
gint span_num;
gchar *text;
gint num_days, start_x, start_y, start_h, end_x, end_y, end_h;
gdouble x1, x2, y1;
gdouble red, green, blue;
GdkPixbuf *pixbuf = NULL;
if (!is_comp_data_valid (event))
return;
text = get_summary_with_location (event->comp_data->icalcomp);
for (span_num = 0; span_num < event->num_spans; span_num++) {
span = &g_array_index (spans, EWeekViewEventSpan,
event->spans_index + span_num);
if (e_week_view_layout_get_span_position
(event, span,
psi->rows_per_cell,
psi->rows_per_compressed_cell,
psi->display_start_weekday,
psi->multi_week_view,
psi->compress_weekend,
&num_days)) {
e_week_view_layout_get_day_position
(span->start_day,
psi->multi_week_view,
psi->weeks_shown,
psi->display_start_weekday,
psi->compress_weekend,
&start_x, &start_y, &start_h);
if (num_days == 1) {
end_x = start_x;
end_y = start_y;
end_h = start_h;
} else {
e_week_view_layout_get_day_position
(span->start_day + num_days - 1,
psi->multi_week_view,
psi->weeks_shown,
psi->display_start_weekday,
psi->compress_weekend,
&end_x, &end_y, &end_h);
}
x1 = left + start_x * cell_width + 6;
x2 = left + (end_x + 1) * cell_width - 6;
y1 = top + start_y * cell_height
+ psi->header_row_height
+ span->row * (psi->row_height + 2);
red = .9;
green = .9;
blue = .9;
e_cal_model_get_rgb_color_for_component (
model, event->comp_data, &red, &green, &blue);
if (print_is_one_day_week_event (event, span,
psi->day_starts)) {
print_week_day_event (context, font, psi,
x1, x2, y1, psi->row_height,
event, span, text, red, green, blue);
} else {
print_week_long_event (context, font, psi,
x1, x2, y1, psi->row_height,
event, span, text, red, green, blue);
}
} else {
cairo_t *cr = gtk_print_context_get_cairo_context (context);
e_week_view_layout_get_day_position
(span->start_day,
psi->multi_week_view,
psi->weeks_shown,
psi->display_start_weekday,
psi->compress_weekend,
&start_x, &start_y, &start_h);
y1 = top + start_y * cell_height
+ psi->header_row_height
+ psi->rows_per_cell * (psi->row_height + 2);
if (span->row >= psi->rows_per_compressed_cell && psi->compress_weekend) {
gint end_day_of_week = (psi->display_start_weekday + span->start_day) % 7;
if (end_day_of_week == 5 || end_day_of_week == 6) {
/* Sat or Sun */
y1 = top + start_y * cell_height
+ psi->header_row_height
+ psi->rows_per_compressed_cell * (psi->row_height + 2);
}
}
if (!pixbuf) {
const gchar **xpm = (const gchar **)jump_xpm;
/* this ugly thing is here only to get rid of compiler warning
about unused 'jump_xpm_focused' */
if (pixbuf)
xpm = (const gchar **)jump_xpm_focused;
pixbuf = gdk_pixbuf_new_from_xpm_data (xpm);
}
x1 = left + (start_x + 1) * cell_width - 6 - gdk_pixbuf_get_width (pixbuf) * 0.5;
cairo_save (cr);
cairo_scale (cr, 0.5, 0.5);
gdk_cairo_set_source_pixbuf (cr, pixbuf, x1 * 2.0, y1 * 2.0);
cairo_paint (cr);
cairo_restore (cr);
}
}
if (pixbuf)
g_object_unref (pixbuf);
g_free (text);
}
static void
print_week_view_background (GtkPrintContext *context,
PangoFontDescription *font,
struct psinfo *psi,
double left, double top,
double cell_width, double cell_height)
{
struct tm tm;
gint day, day_x, day_y, day_h;
gdouble x1, x2, y1, y2, font_size, fillcolor;
const gchar *format_string;
gchar buffer[128];
cairo_t *cr;
font_size = get_font_size (font);
for (day = 0; day < psi->days_shown; day++) {
e_week_view_layout_get_day_position
(day, psi->multi_week_view, psi->weeks_shown,
psi->display_start_weekday, psi->compress_weekend,
&day_x, &day_y, &day_h);
x1 = left + day_x * cell_width;
x2 = left + (day_x + 1) * cell_width;
y1 = top + day_y * cell_height;
y2 = y1 + day_h * cell_height;
convert_timet_to_struct_tm (psi->day_starts[day], psi->zone, &tm);
/* In the month view we draw a grey background for the end
of the previous month and the start of the following. */
fillcolor = -1.0;
if (psi->multi_week_view && (tm.tm_mon != psi->month))
fillcolor = 0.9;
print_border (context, x1, x2, y1, y2, 1.0, fillcolor);
if (psi->multi_week_view) {
if (tm.tm_mday == 1)
format_string = _("%d %B");
else
format_string = "%d";
} else {
cr = gtk_print_context_get_cairo_context (context);
cairo_move_to (cr, x1 + 0.1 * cell_width,
y1 + psi->header_row_height - 4);
cairo_line_to (cr, x2,
y1 + psi->header_row_height - 4);
cairo_set_source_rgb (cr, 0, 0, 0);
cairo_set_line_width (cr, 0.5);
cairo_stroke (cr);
/* strftime format %A = full weekday name, %d = day of
month, %B = full month name. You can change the
order but don't change the specifiers or add
anything. */
format_string = _("%A %d %B");
}
e_utf8_strftime (buffer, sizeof (buffer), format_string, &tm);
print_text_size (context, buffer, PANGO_ALIGN_RIGHT,
x1, x2 - 4, y1 + 2, y1 + 2 + font_size);
}
}
/* This adds one event to the view, adding it to the appropriate array. */
static gboolean
print_week_summary_cb (ECalComponent *comp,
time_t start,
time_t end,
gpointer data)
{
EWeekViewEvent event;
struct icaltimetype start_tt, end_tt;
ECalModelGenerateInstancesData *mdata = (ECalModelGenerateInstancesData *) data;
struct psinfo *psi = (struct psinfo *) mdata->cb_data;
/* Check that the event times are valid. */
#if 0
g_print ("View start:%li end:%li Event start:%li end:%li\n",
psi->day_starts[0], psi->day_starts[psi->days_shown],
start, end);
#endif
g_return_val_if_fail (start <= end, TRUE);
g_return_val_if_fail (start < psi->day_starts[psi->days_shown], TRUE);
g_return_val_if_fail (end > psi->day_starts[0], TRUE);
start_tt = icaltime_from_timet_with_zone (start, FALSE, psi->zone);
end_tt = icaltime_from_timet_with_zone (end, FALSE, psi->zone);
event.comp_data = g_object_ref (mdata->comp_data);
event.start = start;
event.end = end;
event.spans_index = 0;
event.num_spans = 0;
event.start_minute = start_tt.hour * 60 + start_tt.minute;
event.end_minute = end_tt.hour * 60 + end_tt.minute;
if (event.end_minute == 0 && start != end)
event.end_minute = 24 * 60;
g_array_append_val (psi->events, event);
return TRUE;
}
static void
print_week_summary (GtkPrintContext *context, GnomeCalendar *gcal,
time_t whence, gboolean multi_week_view, gint weeks_shown,
gint month, double font_size,
double left, double right, double top, double bottom)
{
icaltimezone *zone;
EWeekViewEvent *event;
struct psinfo psi;
time_t day_start;
gint rows_per_day[E_WEEK_VIEW_MAX_WEEKS * 7], day, event_num;
GArray *spans;
PangoFontDescription *font;
gdouble cell_width, cell_height;
ECalModel *model;
model = gnome_calendar_get_model (gcal);
zone = e_cal_model_get_timezone (model);
psi.days_shown = weeks_shown * 7;
psi.events = g_array_new (FALSE, FALSE, sizeof (EWeekViewEvent));
psi.multi_week_view = multi_week_view;
psi.weeks_shown = weeks_shown;
psi.month = month;
psi.zone = zone;
/* Get a few config settings. */
if (multi_week_view)
psi.compress_weekend = e_cal_model_get_compress_weekend (model);
else
psi.compress_weekend = TRUE;
psi.use_24_hour_format = e_cal_model_get_use_24_hour_format (model);
/* We convert this from (0 = Sun, 6 = Sat) to (0 = Mon, 6 = Sun). */
psi.display_start_weekday = e_cal_model_get_week_start_day (model);
psi.display_start_weekday = (psi.display_start_weekday + 6) % 7;
/* If weekends are compressed then we can't start on a Sunday. */
if (psi.compress_weekend && psi.display_start_weekday == 6)
psi.display_start_weekday = 5;
day_start = time_day_begin_with_zone (whence, zone);
for (day = 0; day <= psi.days_shown; day++) {
psi.day_starts[day] = day_start;
day_start = time_add_day_with_zone (day_start, 1, zone);
}
/* Get the events from the server. */
e_cal_model_generate_instances (model,
psi.day_starts[0], psi.day_starts[psi.days_shown],
print_week_summary_cb, &psi);
qsort (psi.events->data, psi.events->len,
sizeof (EWeekViewEvent), e_week_view_event_sort_func);
/* Layout the events. */
spans = e_week_view_layout_events (psi.events, NULL,
psi.multi_week_view,
psi.weeks_shown,
psi.compress_weekend,
psi.display_start_weekday,
psi.day_starts, rows_per_day);
/* Calculate the size of the cells. */
if (multi_week_view) {
cell_width = (right - left) / (psi.compress_weekend ? 6 : 7);
cell_height = (bottom - top) / (weeks_shown * 2);
} else {
cell_width = (right - left) / 2;
cell_height = (bottom - top) / 6;
}
/* Calculate the row height, using the normal font and with room for
space or a rectangle around it. */
psi.row_height = font_size * 1.2;
psi.header_row_height = font_size * 1.5;
/* Calculate how many rows we can fit into each type of cell. */
psi.rows_per_cell = ((cell_height * 2) - psi.header_row_height)
/ (psi.row_height + 2);
psi.rows_per_compressed_cell = (cell_height - psi.header_row_height)
/ (psi.row_height + 2);
font = get_font_for_size (font_size, PANGO_WEIGHT_NORMAL);
/* Draw the grid and the day names/numbers. */
print_week_view_background (context, font, &psi, left, top,
cell_width, cell_height);
/* Print the events. */
for (event_num = 0; event_num < psi.events->len; event_num++) {
event = &g_array_index (psi.events, EWeekViewEvent, event_num);
print_week_event (context, font, &psi, left, top,
cell_width, cell_height, model, event, spans);
}
pango_font_description_free (font);
/* Free everything. */
for (event_num = 0; event_num < psi.events->len; event_num++) {
event = &g_array_index (psi.events, EWeekViewEvent, event_num);
g_object_unref (event->comp_data);
}
g_array_free (psi.events, TRUE);
g_array_free (spans, TRUE);
}
static void
print_month_summary (GtkPrintContext *context,
GnomeCalendar *gcal,
time_t whence,
gdouble left,
gdouble right,
gdouble top,
gdouble bottom)
{
icaltimezone *zone;
time_t date;
struct tm tm;
struct icaltimetype tt;
gchar buffer[100];
ECalModel *model;
PangoFontDescription *font;
gboolean compress_weekend;
gint columns, col, weekday, month, weeks;
gdouble font_size, cell_width, x1, x2, y1, y2;
model = gnome_calendar_get_model (gcal);
zone = e_cal_model_get_timezone (model);
weekday = e_cal_model_get_week_start_day (model);
compress_weekend = e_cal_model_get_compress_weekend (model);
date = 0;
weeks = 6;
if (gnome_calendar_get_view (gcal) == GNOME_CAL_MONTH_VIEW) {
GnomeCalendarViewType view_type;
ECalendarView *calendar_view;
EWeekView *week_view;
view_type = gnome_calendar_get_view (gcal);
calendar_view = gnome_calendar_get_calendar_view (gcal, view_type);
week_view = E_WEEK_VIEW (calendar_view);
if (week_view && week_view->multi_week_view
&& !(week_view->weeks_shown >= 4 &&
g_date_valid (&week_view->first_day_shown))) {
weeks = week_view->weeks_shown;
date = whence;
}
}
/* Remember which month we want. */
tt = icaltime_from_timet_with_zone (whence, FALSE, zone);
month = tt.month - 1;
/* Find the start of the month, and then the start of the week on
or before that day. */
if (!date)
date = time_month_begin_with_zone (whence, zone);
date = time_week_begin_with_zone (date, weekday, zone);
/* If weekends are compressed then we can't start on a Sunday. */
if (compress_weekend && weekday == 0)
date = time_add_day_with_zone (date, -1, zone);
/* do day names ... */
/* We are only interested in outputting the weekday here, but we want
to be able to step through the week without worrying about
overflows making strftime choke, so we move near to the start of
the month. */
convert_timet_to_struct_tm (date, zone, &tm);
tm.tm_mday = (tm.tm_mday % 7) + 7;
font = get_font_for_size (MONTH_NORMAL_FONT_SIZE, PANGO_WEIGHT_BOLD);
font_size = get_font_size (font);
columns = compress_weekend ? 6 : 7;
cell_width = (right - left) / columns;
y1 = top;
y2 = top + font_size * 1.5;
for (col = 0; col < columns; col++) {
if (tm.tm_wday == 6 && compress_weekend)
g_snprintf (
buffer, sizeof (buffer), "%s/%s",
e_get_weekday_name (G_DATE_SATURDAY, TRUE),
e_get_weekday_name (G_DATE_SUNDAY, TRUE));
else
g_snprintf (
buffer, sizeof (buffer), "%s",
e_get_weekday_name (
tm.tm_wday ? tm.tm_wday : 7, FALSE));
x1 = left + cell_width * col;
x2 = x1 + cell_width;
print_border (context, x1, x2, y1, y2, 1.0, -1.0);
print_text_size (context, buffer, PANGO_ALIGN_CENTER, x1, x2, y1, y2);
tm.tm_mday++;
tm.tm_wday = (tm.tm_wday + 1) % 7;
}
pango_font_description_free (font);
top = y2;
print_week_summary (context, gcal, date, TRUE, weeks, month,
MONTH_NORMAL_FONT_SIZE,
left, right, top, bottom);
}
static void
print_todo_details (GtkPrintContext *context, GnomeCalendar *gcal,
time_t start, time_t end,
double left, double right, double top, double bottom)
{
PangoFontDescription *font_summary;
gdouble y, yend, x, xend;
struct icaltimetype *tt;
GtkWidget *task_table;
ETable *table;
ECalModel *model;
gint rows, row;
cairo_t *cr;
/* We get the tasks directly from the TaskPad ETable. This means we
get them filtered & sorted for free. */
task_table = gnome_calendar_get_task_table (gcal);
table = E_TABLE (task_table);
g_return_if_fail (table != NULL);
model = e_task_table_get_model (E_TASK_TABLE (task_table));
font_summary = get_font_for_size (12, PANGO_WEIGHT_NORMAL);
cr = gtk_print_context_get_cairo_context (context);
cairo_set_source_rgb (cr, 0, 0, 0);
cairo_set_line_width (cr, 0.0);
top +=2;
titled_box (context, _("Tasks"), font_summary, PANGO_ALIGN_CENTER,
&left, &top, &right, &bottom, 1.0);
y = top;
yend = bottom - 2;
rows = e_table_model_row_count (E_TABLE_MODEL (model));
for (row = 0; row < rows; row++) {
ECalModelComponent *comp_data;
ECalComponent *comp;
ECalComponentText summary;
gint model_row;
model_row = e_table_view_to_model_row (table, row);
comp_data = e_cal_model_get_component_at (model, model_row);
if (!comp_data)
continue;
comp = e_cal_component_new ();
e_cal_component_set_icalcomponent (
comp, icalcomponent_new_clone (comp_data->icalcomp));
e_cal_component_get_summary (comp, &summary);
if (!summary.value) {
g_object_unref (comp);
continue;
}
x = left;
xend = right - 2;
if (y > bottom) {
g_object_unref (comp);
break;
}
/* Print the box to put the tick in. */
print_border (context, x + 2, x + 8, y + 6, y + 15, 0.1, -1.0);
/* If the task is complete, print a tick in the box. */
e_cal_component_get_completed (comp, &tt);
if (tt) {
e_cal_component_free_icaltimetype (tt);
cr = gtk_print_context_get_cairo_context (context);
cairo_set_source_rgb (cr, 0, 0, 0);
cairo_move_to (cr, x + 3, y + 11);
cairo_line_to (cr, x + 5, y + 14);
cairo_line_to (cr, x + 7, y + 5.5);
cairo_set_line_width (cr, 1);
cairo_stroke (cr);
}
y = bound_text (context, font_summary, summary.value, -1,
x + 14, y + 4, xend, yend, FALSE, NULL, NULL);
y += get_font_size (font_summary)-5;
cr = gtk_print_context_get_cairo_context (context);
cairo_move_to (cr, x, y);
cairo_line_to (cr, xend, y);
cairo_set_line_width (cr, 1);
cairo_stroke (cr);
g_object_unref (comp);
}
pango_font_description_free (font_summary);
}
static void
print_day_view (GtkPrintContext *context, GnomeCalendar *gcal, time_t date)
{
ECalModel *model;
GtkPageSetup *setup;
icaltimezone *zone;
gint i, days = 1;
gdouble todo, l, week_numbers_inc, small_month_width;
gchar buf[100];
gdouble width, height;
struct tm tm;
model = gnome_calendar_get_model (gcal);
zone = e_cal_model_get_timezone (model);
setup = gtk_print_context_get_page_setup (context);
width = gtk_page_setup_get_page_width (setup, GTK_UNIT_POINTS);
height = gtk_page_setup_get_page_height (setup, GTK_UNIT_POINTS);
small_month_width = calc_small_month_width (context, HEADER_HEIGHT);
week_numbers_inc = get_show_week_numbers () ? small_month_width / 7.0 : 0;
for (i = 0; i < days; i++) {
todo = width * 0.75;
/* Print the main view with all the events in. */
print_day_details (context, gcal, date,
0.0, todo - 2.0, HEADER_HEIGHT + 4,
height);
/* Print the TaskPad down the right. */
print_todo_details (context, gcal, 0, INT_MAX,
todo, width, HEADER_HEIGHT + 4,
height);
/* Print the filled border around the header. */
print_border (context, 0.0, width,
0.0, HEADER_HEIGHT + 4, 1.0, 0.9);
/* Print the 2 mini calendar-months. */
l = width - SMALL_MONTH_PAD - (small_month_width + week_numbers_inc) * 2 - SMALL_MONTH_SPACING;
print_month_small (context, gcal, date,
l, 2, l + small_month_width + week_numbers_inc, HEADER_HEIGHT + 2,
DATE_MONTH | DATE_YEAR, date, date, FALSE);
l += SMALL_MONTH_SPACING + small_month_width + week_numbers_inc;
print_month_small (context, gcal,
time_add_month_with_zone (date, 1, zone),
l, 2, l + small_month_width + week_numbers_inc, HEADER_HEIGHT + 2,
DATE_MONTH | DATE_YEAR, 0, 0, FALSE);
/* Print the date, e.g. '8th May, 2001'. */
convert_timet_to_struct_tm (date, zone, &tm);
format_date (&tm, DATE_DAY | DATE_MONTH | DATE_YEAR,
buf, 100);
print_text_size_bold (context, buf, PANGO_ALIGN_LEFT,
4, todo, 4,
4 + 24);
/* Print the day, e.g. 'Tuesday'. */
format_date (&tm, DATE_DAYNAME, buf, 100);
print_text_size_bold (context, buf, PANGO_ALIGN_LEFT,
4, todo,
HEADER_HEIGHT + 9,
HEADER_HEIGHT + 9 + 18);
date = time_add_day_with_zone (date, 1, zone);
}
}
static void
print_work_week_background (GtkPrintContext *context, GnomeCalendar *gcal,
time_t whence, struct pdinfo *pdi, double left,
double right, double top, double bottom)
{
ECalModel *model;
PangoFontDescription *font_hour, *font_minute;
gdouble yinc, y;
gdouble width = DAY_VIEW_TIME_COLUMN_WIDTH;
gdouble day_width;
gdouble font_size, max_font_size, hour_font_size, minute_font_size;
gchar buf[20];
const gchar *minute;
const gint LONG_EVENT_OFFSET = 6;
gboolean use_24_hour;
gint i, hour, row;
gdouble hour_minute_xl, hour_minute_xr;
cairo_t *cr;
model = gnome_calendar_get_model (gcal);
use_24_hour = e_cal_model_get_use_24_hour_format (model);
/* Fill the left time column in light-gray. */
print_border (context, left, left + width, top, bottom, -1.0, 0.9);
/* Fill the right time column in light-gray */
print_border (context, right - width, right, top, bottom, -1.0, 0.9);
/* Draw the border around the entire view. */
cr = gtk_print_context_get_cairo_context (context);
cairo_set_source_rgb (cr, 0, 0, 0);
print_border (context, left, right, top, bottom, 1.0, -1.0);
/* Draw the vertical line on the right of the time column. */
cr = gtk_print_context_get_cairo_context (context);
cairo_set_line_width (cr, 0.0);
cairo_move_to (cr, left + width, bottom);
cairo_line_to (cr, left + width, top);
cairo_stroke (cr);
cairo_move_to (cr, right - width, bottom);
cairo_line_to (cr, right - width, top);
cairo_stroke (cr);
/* Calculate the row height. */
if (top > bottom)
yinc = (top - bottom) / (pdi->end_hour - pdi->start_hour);
else
yinc = (bottom - top) / (pdi->end_hour - pdi->start_hour);
/* Get the 2 fonts we need. */
font_size = yinc * 0.6;
max_font_size = width * 0.45;
hour_font_size = MIN (font_size, max_font_size);
font_hour = get_font_for_size (hour_font_size, PANGO_WEIGHT_BOLD);
font_size = yinc * 0.33;
max_font_size = width * 0.2;
minute_font_size = MIN (font_size, max_font_size);
font_minute = get_font_for_size (minute_font_size, PANGO_WEIGHT_BOLD);
hour_minute_xr = evo_calendar_print_renderer_get_width (context, font_minute, use_24_hour ? "00" : _("am"));
if (!use_24_hour)
hour_minute_xr = MAX (hour_minute_xr, evo_calendar_print_renderer_get_width (context, font_minute, _("pm")));
row = 0;
hour_minute_xl = left + width - hour_minute_xr - 3;
hour_minute_xr = right - hour_minute_xr - 3;
for (i = pdi->start_hour; i < pdi->end_hour; i++) {
y = top + yinc * (row + 1);
cr = gtk_print_context_get_cairo_context (context);
cairo_set_source_rgb (cr, 0, 0, 0);
if (use_24_hour) {
hour = i;
minute = "00";
} else {
if (i < 12)
minute = _("am");
else
minute = _("pm");
hour = i % 12;
if (hour == 0)
hour = 12;
}
/* the hour label/minute */
sprintf (buf, "%d", hour);
print_text (context, font_hour, buf, PANGO_ALIGN_RIGHT,
left, hour_minute_xl,
y - yinc, y - yinc + hour_font_size);
print_text (context, font_minute, minute, PANGO_ALIGN_LEFT,
hour_minute_xl, left + width - 3,
y - yinc, y - yinc + minute_font_size);
/* To the right */
print_text (context, font_hour, buf, PANGO_ALIGN_RIGHT,
right - width, hour_minute_xr,
y - yinc, y - yinc + hour_font_size);
print_text (context, font_minute, minute, PANGO_ALIGN_LEFT,
hour_minute_xr, right - 3,
y - yinc, y - yinc + minute_font_size);
/* Draw the horizontal line between hours, across the entire
width of the day view. */
cr = gtk_print_context_get_cairo_context (context);
cairo_move_to (cr, left, y);
cairo_line_to (cr, right, y);
cairo_set_line_width (cr, 1);
cairo_stroke (cr);
/* Draw the horizontal line for the 1/2-hours, across the
entire width except for part of the time column. */
cairo_move_to (cr, left + width * 0.6, y - yinc / 2);
cairo_line_to (cr, right, y - yinc / 2);
cairo_set_line_width (cr, 1);
cairo_stroke (cr);
row++;
}
/* Draw the vertical lines for the days */
day_width = (right - left - 2*width) / pdi->days_shown;
for (i = 0; i < pdi->days_shown - 1; ++i) {
cr = gtk_print_context_get_cairo_context (context);
cairo_move_to (cr, left + width + day_width * (i + 1), top);
cairo_line_to (cr, left + width + day_width * (i + 1), bottom);
cairo_set_line_width (cr, 1);
cairo_stroke (cr);
}
/* And now the ones from the border to the hours, looks weird otherwise */
cr = gtk_print_context_get_cairo_context (context);
cairo_move_to (cr, left, HEADER_HEIGHT);
cairo_line_to (cr, left, HEADER_HEIGHT + DAY_VIEW_ROW_HEIGHT + LONG_EVENT_OFFSET);
cairo_move_to (cr, right, HEADER_HEIGHT);
cairo_line_to (cr, right, HEADER_HEIGHT + DAY_VIEW_ROW_HEIGHT + LONG_EVENT_OFFSET);
cairo_stroke (cr);
pango_font_description_free (font_hour);
pango_font_description_free (font_minute);
}
static void
print_work_week_day_details (GtkPrintContext *context, GnomeCalendar *gcal,
time_t whence, double left, double right,
double top, double bottom, struct pdinfo *_pdi)
{
ECalModel *model;
icaltimezone *zone;
EDayViewEvent *event;
PangoFontDescription *font;
time_t start, end;
struct pdinfo pdi;
gint rows_in_top_display, i;
gdouble font_size, max_font_size;
cairo_t *cr;
GdkPixbuf *pixbuf = NULL;
#define LONG_DAY_EVENTS_TOP_SPACING 4
#define LONG_DAY_EVENTS_BOTTOM_SPACING 2
model = gnome_calendar_get_model (gcal);
zone = e_cal_model_get_timezone (model);
start = time_day_begin_with_zone (whence, zone);
end = time_day_end_with_zone (start, zone);
pdi.days_shown = 1;
pdi.day_starts[0] = start;
pdi.day_starts[1] = end;
pdi.long_events = g_array_new (FALSE, FALSE, sizeof (EDayViewEvent));
pdi.events[0] = g_array_new (FALSE, FALSE, sizeof (EDayViewEvent));
pdi.start_hour = e_cal_model_get_work_day_start_hour (model);
pdi.end_hour = e_cal_model_get_work_day_end_hour (model);
if (e_cal_model_get_work_day_end_minute (model) != 0)
pdi.end_hour++;
pdi.rows = (pdi.end_hour - pdi.start_hour) * 2;
pdi.mins_per_row = 30;
pdi.start_minute_offset = pdi.start_hour * 60;
pdi.end_minute_offset = pdi.end_hour * 60;
pdi.use_24_hour_format = e_cal_model_get_use_24_hour_format (model);
/* Get the events from the server. */
e_cal_model_generate_instances (model, start, end, print_day_details_cb, &pdi);
qsort (pdi.long_events->data, pdi.long_events->len,
sizeof (EDayViewEvent), e_day_view_event_sort_func);
qsort (pdi.events[0]->data, pdi.events[0]->len,
sizeof (EDayViewEvent), e_day_view_event_sort_func);
pdi.start_hour = MIN (pdi.start_hour, _pdi->start_hour);
pdi.end_hour = MAX (pdi.end_hour, _pdi->end_hour);
/* TODO: This should be redundant */
/* Also print events outside of work hours */
if (pdi.events[0]->len > 0) {
struct icaltimetype tt;
event = &g_array_index (pdi.events[0], EDayViewEvent, 0);
tt = icaltime_from_timet_with_zone (event->start, FALSE, zone);
if (tt.hour < pdi.start_hour)
pdi.start_hour = tt.hour;
pdi.start_minute_offset = pdi.start_hour * 60;
event = &g_array_index (pdi.events[0], EDayViewEvent, pdi.events[0]->len - 1);
tt = icaltime_from_timet_with_zone (event->end, FALSE, zone);
if (tt.hour > pdi.end_hour || tt.hour == 0) {
pdi.end_hour = tt.hour ? tt.hour : 24;
if (tt.minute > 0)
pdi.end_hour++;
}
pdi.end_minute_offset = pdi.end_hour * 60;
pdi.rows = (pdi.end_hour - pdi.start_hour) * 2;
}
/* Lay them out the long events, across the top of the page. */
e_day_view_layout_long_events (pdi.long_events, pdi.days_shown,
pdi.day_starts, &rows_in_top_display);
/*Print the long events. */
font = get_font_for_size (12, PANGO_WEIGHT_NORMAL);
/* We always leave space for DAY_VIEW_MIN_ROWS_IN_TOP_DISPLAY in the
top display, but we may have more rows than that, in which case
the main display area will be compressed. */
/* Limit long day event to half the height of the panel */
rows_in_top_display = MIN (MAX (rows_in_top_display,
DAY_VIEW_MIN_ROWS_IN_TOP_DISPLAY),
(bottom-top)*0.5/DAY_VIEW_ROW_HEIGHT);
if (rows_in_top_display > pdi.long_events->len)
rows_in_top_display = pdi.long_events->len;
for (i = 0; i < rows_in_top_display && i < pdi.long_events->len; i++) {
event = &g_array_index (pdi.long_events, EDayViewEvent, i);
print_day_long_event (
context, font, left, right,
top + LONG_DAY_EVENTS_TOP_SPACING, bottom,
DAY_VIEW_ROW_HEIGHT, event, &pdi, model);
}
if (rows_in_top_display < pdi.long_events->len) {
/* too many events */
cairo_t *cr = gtk_print_context_get_cairo_context (context);
gint x, y;
if (!pixbuf) {
const gchar **xpm = (const gchar **)jump_xpm;
/* this ugly thing is here only to get rid of compiler warning
about unused 'jump_xpm_focused' */
if (pixbuf)
xpm = (const gchar **)jump_xpm_focused;
pixbuf = gdk_pixbuf_new_from_xpm_data (xpm);
}
/* Right align - 10 comes from print_day_long_event too */
x = right - gdk_pixbuf_get_width (pixbuf) * 0.5 - 10;
/* Placing '...' over the last all day event entry printed. '-1 -1' comes
from print_long_day_event (top/bottom spacing in each cell) */
y = top + LONG_DAY_EVENTS_TOP_SPACING
+ DAY_VIEW_ROW_HEIGHT * (i - 1)
+ (DAY_VIEW_ROW_HEIGHT - 1 - 1) * 0.5;
cairo_save (cr);
cairo_scale (cr, 0.5, 0.5);
gdk_cairo_set_source_pixbuf (cr, pixbuf, x * 2.0, y * 2.0);
cairo_paint (cr);
cairo_restore (cr);
}
if (!rows_in_top_display)
rows_in_top_display++;
/* Draw the border around the long events. */
cr = gtk_print_context_get_cairo_context (context);
cairo_set_source_rgb (cr, 0, 0, 0);
print_border (
context, left, right,
top, top + rows_in_top_display * DAY_VIEW_ROW_HEIGHT +
LONG_DAY_EVENTS_TOP_SPACING + LONG_DAY_EVENTS_BOTTOM_SPACING,
1.0, -1.0);
/* Adjust the area containing the main display. */
top += rows_in_top_display * DAY_VIEW_ROW_HEIGHT
+ LONG_DAY_EVENTS_TOP_SPACING
+ LONG_DAY_EVENTS_BOTTOM_SPACING;
/* lay out the short events, within the day. */
e_day_view_layout_day_events (pdi.events[0], DAY_VIEW_ROWS,
DAY_VIEW_MINS_PER_ROW, pdi.cols_per_row, -1);
/* print the short events. */
if (top > bottom )
max_font_size = ((top - bottom) / pdi.rows) - 4;
else
max_font_size = ((bottom - top ) / pdi.rows) - 4;
font_size = MIN (DAY_NORMAL_FONT_SIZE, max_font_size);
font = get_font_for_size (font_size, PANGO_WEIGHT_NORMAL);
for (i = 0; i < pdi.events[0]->len; i++) {
event = &g_array_index (pdi.events[0], EDayViewEvent, i);
print_day_event (context, font, left,
right, top, bottom, event, &pdi, model);
}
/* Free everything. */
if (pixbuf)
g_object_unref (pixbuf);
free_event_array (pdi.long_events);
pango_font_description_free (font);
g_array_free (pdi.long_events, TRUE);
free_event_array (pdi.events[0]);
g_array_free (pdi.events[0], TRUE);
}
/* Figure out what the overal hour limits are */
static gboolean
print_work_week_view_cb (ECalComponent *comp,
time_t istart,
time_t iend,
gpointer data)
{
ECalModelGenerateInstancesData *mdata = (ECalModelGenerateInstancesData *) data;
struct pdinfo *pdi = (struct pdinfo *) mdata->cb_data;
struct icaltimetype tt;
tt = icaltime_from_timet_with_zone (istart, FALSE, pdi->zone);
pdi->start_hour = MIN (pdi->start_hour, tt.hour);
tt = icaltime_from_timet_with_zone (iend, FALSE, pdi->zone);
/* If we're past the hour, use the next one */
pdi->end_hour = MAX (pdi->end_hour, tt.minute ? tt.hour + 1 : tt.hour);
return TRUE;
}
static void
print_work_week_view (GtkPrintContext *context, GnomeCalendar *gcal, time_t date)
{
GtkPageSetup *setup;
icaltimezone *zone;
time_t when, start, end;
gdouble width, height, l, small_month_width = calc_small_month_width (context, HEADER_HEIGHT);
gint i, days = 5;
gchar buf[100];
const gint LONG_EVENT_OFFSET = 6;
struct pdinfo pdi;
struct tm tm;
gdouble day_width, day_x;
ECalModel *model;
gdouble weeknum_inc = get_show_week_numbers () ? small_month_width / 7.0 : 0;
model = gnome_calendar_get_model (gcal);
zone = e_cal_model_get_timezone (model);
setup = gtk_print_context_get_page_setup (context);
width = gtk_page_setup_get_page_width (setup, GTK_UNIT_POINTS);
height = gtk_page_setup_get_page_height (setup, GTK_UNIT_POINTS);
/* We always start on a Monday */
start = time_week_begin_with_zone (date, 1, zone);
end = time_add_day_with_zone (start, days, zone);
pdi.days_shown = days;
pdi.start_hour = e_cal_model_get_work_day_start_hour (model);
pdi.end_hour = e_cal_model_get_work_day_end_hour (model);
e_cal_model_generate_instances (model, start, end,
print_work_week_view_cb, &pdi);
print_work_week_background (context, gcal, date, &pdi, 0.0, width,
HEADER_HEIGHT + DAY_VIEW_ROW_HEIGHT + LONG_EVENT_OFFSET,
height);
print_border (context, 0.0, width, 0.0, HEADER_HEIGHT, 1.0, 0.9);
/* Print the 2 mini calendar-months. */
l = width - SMALL_MONTH_PAD - (small_month_width + weeknum_inc) * 2 - SMALL_MONTH_SPACING;
print_month_small (context, gcal, start,
l, 4, l + small_month_width + weeknum_inc, HEADER_HEIGHT + 4,
DATE_MONTH | DATE_YEAR, start, end, FALSE);
l += SMALL_MONTH_SPACING + small_month_width + weeknum_inc;
print_month_small (context, gcal,
time_add_month_with_zone (start, 1, zone),
l, 4, l + small_month_width + weeknum_inc, HEADER_HEIGHT + 4,
DATE_MONTH | DATE_YEAR, 0, 0, FALSE);
/* Print the start day of the week, e.g. '7th May 2001'. */
convert_timet_to_struct_tm (start, zone, &tm);
format_date (&tm, DATE_DAY | DATE_MONTH | DATE_YEAR, buf, 100);
print_text_size_bold (context, buf, PANGO_ALIGN_LEFT,
3, width,
4, 4 + 24);
/* Print the end day of the week, e.g. '13th May 2001'. */
/* We need to substract one or the wrong day will be printed */
convert_timet_to_struct_tm (
time_add_day_with_zone (end, -1, zone), zone, &tm);
format_date (&tm, DATE_DAY | DATE_MONTH | DATE_YEAR, buf, 100);
print_text_size_bold (context, buf, PANGO_ALIGN_LEFT,
3, width,
24 + 3, 24 + 3 + 24);
/* Now print each days' events */
day_width = (width - 2*DAY_VIEW_TIME_COLUMN_WIDTH) / days;
when = start;
for (i = 0; i < days; ++i) {
day_x = DAY_VIEW_TIME_COLUMN_WIDTH + day_width * i;
/* Print the day, e.g. 'Tuesday'. */
convert_timet_to_struct_tm (when, zone, &tm);
format_date (&tm, DATE_DAYNAME, buf, 100);
print_text_size_bold (context, buf, PANGO_ALIGN_LEFT,
day_x + 4, day_x + day_width,
HEADER_HEIGHT + 4, HEADER_HEIGHT + 4 + 18);
print_work_week_day_details (context, gcal, when,
day_x, day_x + day_width,
HEADER_HEIGHT, height, &pdi);
when = time_add_day_with_zone (when, 1, zone);
}
}
static void
print_week_view (GtkPrintContext *context, GnomeCalendar *gcal, time_t date)
{
GtkPageSetup *setup;
ECalModel *model;
icaltimezone *zone;
gdouble l, week_numbers_inc, small_month_width;
gchar buf[100];
time_t when;
gint week_start_day;
struct tm tm;
gdouble width, height;
setup = gtk_print_context_get_page_setup (context);
width = gtk_page_setup_get_page_width (setup, GTK_UNIT_POINTS);
height = gtk_page_setup_get_page_height (setup, GTK_UNIT_POINTS);
small_month_width = calc_small_month_width (context, HEADER_HEIGHT);
week_numbers_inc = get_show_week_numbers () ? small_month_width / 7.0 : 0;
model = gnome_calendar_get_model (gcal);
zone = e_cal_model_get_timezone (model);
convert_timet_to_struct_tm (date, zone, &tm);
week_start_day = e_cal_model_get_week_start_day (model);
when = time_week_begin_with_zone (date, week_start_day, zone);
/* If the week starts on a Sunday, we have to show the Saturday first,
since the weekend is compressed. */
if (week_start_day == 0) {
if (tm.tm_wday == 6)
when = time_add_day_with_zone (when, 6, zone);
else
when = time_add_day_with_zone (when, -1, zone);
}
/* Print the main week view. */
print_week_summary (context, gcal, when, FALSE, 1, 0,
WEEK_NORMAL_FONT_SIZE,
0.0, width,
HEADER_HEIGHT + 20, height);
/* Print the border around the main view. */
print_border (context, 0.0, width, HEADER_HEIGHT ,
height, 1.0, -1.0);
/* Print the border around the header area. */
print_border (context, 0.0, width,
0.0, HEADER_HEIGHT + 2.0 + 20, 1.0, 0.9);
/* Print the 2 mini calendar-months. */
l = width - SMALL_MONTH_PAD - (small_month_width + week_numbers_inc) * 2
- SMALL_MONTH_SPACING;
print_month_small (context, gcal, when,
l, 4, l + small_month_width + week_numbers_inc, HEADER_HEIGHT + 10,
DATE_MONTH | DATE_YEAR, when,
time_add_week_with_zone (when, 1, zone), FALSE);
l += SMALL_MONTH_SPACING + small_month_width + week_numbers_inc;
print_month_small (context, gcal,
time_add_month_with_zone (when, 1, zone),
l, 4, l + small_month_width + week_numbers_inc, HEADER_HEIGHT + 10,
DATE_MONTH | DATE_YEAR, when,
time_add_week_with_zone (when, 1, zone), FALSE);
/* Print the start day of the week, e.g. '7th May 2001'. */
convert_timet_to_struct_tm (when, zone, &tm);
format_date (&tm, DATE_DAY | DATE_MONTH | DATE_YEAR, buf, 100);
print_text_size_bold (context, buf, PANGO_ALIGN_LEFT,
3, width,
4, 4 + 24);
/* Print the end day of the week, e.g. '13th May 2001'. */
when = time_add_day_with_zone (when, 6, zone);
convert_timet_to_struct_tm (when, zone, &tm);
format_date (&tm, DATE_DAY | DATE_MONTH | DATE_YEAR, buf, 100);
print_text_size_bold (context, buf, PANGO_ALIGN_LEFT,
3, width,
24 + 3, 24 + 3 + 24);
}
static void
print_month_view (GtkPrintContext *context, GnomeCalendar *gcal, time_t date)
{
ECalModel *model;
GtkPageSetup *setup;
icaltimezone *zone;
gchar buf[100];
gdouble width, height;
gdouble l, week_numbers_inc, small_month_width;
struct tm tm;
model = gnome_calendar_get_model (gcal);
zone = e_cal_model_get_timezone (model);
setup = gtk_print_context_get_page_setup (context);
width = gtk_page_setup_get_page_width (setup, GTK_UNIT_POINTS);
height = gtk_page_setup_get_page_height (setup, GTK_UNIT_POINTS);
small_month_width = calc_small_month_width (context, HEADER_HEIGHT);
week_numbers_inc = get_show_week_numbers () ? small_month_width / 7.0 : 0;
/* Print the main month view. */
print_month_summary (context, gcal, date, 0.0, width, HEADER_HEIGHT, height);
/* Print the border around the header. */
print_border (context, 0.0, width, 0.0, HEADER_HEIGHT + 10, 1.0, 0.9);
l = width - SMALL_MONTH_PAD - small_month_width - week_numbers_inc;
/* Print the 2 mini calendar-months. */
print_month_small (context, gcal,
time_add_month_with_zone (date, 1, zone),
l, 4, l + small_month_width + week_numbers_inc, HEADER_HEIGHT + 4,
DATE_MONTH | DATE_YEAR, 0, 0, FALSE);
print_month_small (context, gcal,
time_add_month_with_zone (date, -1, zone),
8, 4, 8 + small_month_width + week_numbers_inc, HEADER_HEIGHT + 4,
DATE_MONTH | DATE_YEAR, 0, 0, FALSE);
/* Print the month, e.g. 'May 2001'. */
convert_timet_to_struct_tm (date, zone, &tm);
format_date (&tm, DATE_MONTH | DATE_YEAR, buf, 100);
print_text_size_bold (context, buf, PANGO_ALIGN_CENTER,
3, width - 3,
3, 3 + 24);
}
static gboolean
same_date (struct tm tm1, time_t t2, icaltimezone *zone)
{
struct tm tm2;
convert_timet_to_struct_tm (t2, zone, &tm2);
return
tm1.tm_mday == tm2.tm_mday &&
tm1.tm_mon == tm2.tm_mon &&
tm1.tm_year == tm2.tm_year;
}
static void
write_label_piece (time_t t,
time_t *start_cmp,
icaltimezone *zone,
gboolean use_24_hour_format,
gchar *buffer,
gint size,
gchar *stext,
const gchar *etext)
{
struct tm tmp_tm;
gint len;
convert_timet_to_struct_tm (t, zone, &tmp_tm);
if (stext != NULL)
strcat (buffer, stext);
len = strlen (buffer);
if (start_cmp && same_date (tmp_tm, *start_cmp, zone))
e_time_format_time (
&tmp_tm, use_24_hour_format,
FALSE, &buffer[len], size - len);
else
e_time_format_date_and_time (
&tmp_tm, use_24_hour_format, FALSE,
FALSE, &buffer[len], size - len);
if (etext != NULL)
strcat (buffer, etext);
}
static icaltimezone*
get_zone_from_tzid (ECal *client, const gchar *tzid)
{
icaltimezone *zone;
/* Note that the timezones may not be on the server, so we try to get
the builtin timezone with the TZID first. */
zone = icaltimezone_get_builtin_timezone_from_tzid (tzid);
if (!zone) {
if (!e_cal_get_timezone (client, tzid, &zone, NULL))
/* FIXME: Handle error better. */
g_warning ("Couldn't get timezone from server: %s",
tzid ? tzid : "");
}
return zone;
}
static void
print_date_label (GtkPrintContext *context,
ECalComponent *comp,
ECal *client,
icaltimezone *zone,
gboolean use_24_hour_format,
gdouble left,
gdouble right,
gdouble top,
gdouble bottom)
{
icaltimezone *start_zone, *end_zone, *due_zone, *completed_zone;
ECalComponentDateTime datetime;
time_t start = 0, end = 0, complete = 0, due = 0;
static gchar buffer[1024];
e_cal_component_get_dtstart (comp, &datetime);
if (datetime.value) {
start_zone = get_zone_from_tzid (client, datetime.tzid);
if (!start_zone || datetime.value->is_date)
start_zone = zone;
start = icaltime_as_timet_with_zone (*datetime.value,
start_zone);
}
e_cal_component_free_datetime (&datetime);
e_cal_component_get_dtend (comp, &datetime);
if (datetime.value) {
end_zone = get_zone_from_tzid (client, datetime.tzid);
if (!end_zone || datetime.value->is_date)
end_zone = zone;
end = icaltime_as_timet_with_zone (*datetime.value,
end_zone);
}
e_cal_component_free_datetime (&datetime);
e_cal_component_get_due (comp, &datetime);
if (datetime.value) {
due_zone = get_zone_from_tzid (client, datetime.tzid);
if (!due_zone || datetime.value->is_date)
due_zone = zone;
due = icaltime_as_timet_with_zone (*datetime.value,
due_zone);
}
e_cal_component_free_datetime (&datetime);
e_cal_component_get_completed (comp, &datetime.value);
if (datetime.value) {
completed_zone = icaltimezone_get_utc_timezone ();
complete = icaltime_as_timet_with_zone (*datetime.value,
completed_zone);
e_cal_component_free_icaltimetype (datetime.value);
}
buffer[0] = '\0';
if (start > 0)
write_label_piece (
start, NULL, zone, use_24_hour_format,
buffer, 1024, NULL, NULL);
if (end > 0 && start > 0) {
/* Translators: This is part of "START to END" text,
* where START and END are date/times. */
write_label_piece (
end, &start, zone, use_24_hour_format,
buffer, 1024, _(" to "), NULL);
}
if (complete > 0) {
if (start > 0) {
/* Translators: This is part of "START to END
* (Completed COMPLETED)", where COMPLETED is a
* completed date/time. */
write_label_piece (
complete, NULL, zone, use_24_hour_format,
buffer, 1024, _(" (Completed "), ")");
} else {
/* Translators: This is part of "Completed COMPLETED",
* where COMPLETED is a completed date/time. */
write_label_piece (
complete, &start, zone, use_24_hour_format,
buffer, 1024, _("Completed "), NULL);
}
}
if (due > 0 && complete == 0) {
if (start > 0) {
/* Translators: This is part of "START (Due DUE)",
* where START and DUE are dates/times. */
write_label_piece (
due, NULL, zone, use_24_hour_format,
buffer, 1024, _(" (Due "), ")");
} else {
/* Translators: This is part of "Due DUE",
* where DUE is a date/time due the event
* should be finished. */
write_label_piece (
due, &start, zone, use_24_hour_format,
buffer, 1024, _("Due "), NULL);
}
}
print_text_size_bold (context, buffer, PANGO_ALIGN_LEFT,
left, right, top, top + 24);
}
static void
print_calendar_draw_page (GtkPrintOperation *operation,
GtkPrintContext *context,
gint page_nr,
PrintCalItem *pcali)
{
switch (gnome_calendar_get_view (pcali->gcal)) {
case GNOME_CAL_DAY_VIEW:
print_day_view (context, pcali->gcal, pcali->start);
break;
case GNOME_CAL_WORK_WEEK_VIEW:
print_work_week_view (context, pcali->gcal, pcali->start);
break;
case GNOME_CAL_WEEK_VIEW:
print_week_view (context, pcali->gcal, pcali->start);
break;
case GNOME_CAL_MONTH_VIEW:
print_month_view (context, pcali->gcal, pcali->start);
break;
default:
g_return_if_reached ();
}
}
void
print_calendar (GnomeCalendar *gcal,
GtkPrintOperationAction action,
time_t start)
{
GtkPrintOperation *operation;
PrintCalItem pcali;
g_return_if_fail (gcal != NULL);
g_return_if_fail (GNOME_IS_CALENDAR (gcal));
if (gnome_calendar_get_view (gcal) == GNOME_CAL_MONTH_VIEW) {
GnomeCalendarViewType view_type;
ECalendarView *calendar_view;
EWeekView *week_view;
view_type = gnome_calendar_get_view (gcal);
calendar_view = gnome_calendar_get_calendar_view (gcal, view_type);
week_view = E_WEEK_VIEW (calendar_view);
if (week_view && week_view->multi_week_view &&
week_view->weeks_shown >= 4 &&
g_date_valid (&week_view->first_day_shown)) {
GDate date = week_view->first_day_shown;
struct icaltimetype start_tt;
g_date_add_days (&date, 7);
start_tt = icaltime_null_time ();
start_tt.is_date = TRUE;
start_tt.year = g_date_get_year (&date);
start_tt.month = g_date_get_month (&date);
start_tt.day = g_date_get_day (&date);
start = icaltime_as_timet (start_tt);
} else if (week_view && week_view->multi_week_view) {
start = week_view->day_starts[0];
}
}
pcali.gcal = (GnomeCalendar *)gcal;
pcali.start = start;
operation = e_print_operation_new ();
gtk_print_operation_set_n_pages (operation, 1);
g_signal_connect (
operation, "draw_page",
G_CALLBACK (print_calendar_draw_page), &pcali);
gtk_print_operation_run (operation, action, NULL, NULL);
g_object_unref (operation);
}
/* returns number of required pages, when page_nr is -1 */
static gint
print_comp_draw_real (GtkPrintOperation *operation,
GtkPrintContext *context,
gint page_nr,
PrintCompItem *pci)
{
GtkPageSetup *setup;
PangoFontDescription *font;
ECal *client;
ECalComponent *comp;
ECalComponentVType vtype;
ECalComponentText text;
GSList *desc, *l;
GSList *contact_list, *elem;
const gchar *title, *categories, *location;
gchar *categories_string, *location_string, *summary_string;
gdouble header_size;
cairo_t *cr;
gdouble width, height, page_start;
gdouble top;
gint pages = 1;
setup = gtk_print_context_get_page_setup (context);
width = gtk_page_setup_get_page_width (setup, GTK_UNIT_POINTS);
height = gtk_page_setup_get_page_height (setup, GTK_UNIT_POINTS);
top = 0.0;
/* Either draw only the right page or do not draw
* anything when calculating number of pages. */
if (page_nr != -1)
top = top - ((page_nr) * height);
else
top = height;
page_start = top;
/* PrintCompItem structure contains elements to be used
* with the Print Context , obtained in comp_draw_page
*/
client = pci->client;
comp = pci->comp;
vtype = e_cal_component_get_vtype (comp);
/* We should only be asked to print VEVENTs, VTODOs, or VJOURNALs. */
if (vtype == E_CAL_COMPONENT_EVENT)
title = _("Appointment");
else if (vtype == E_CAL_COMPONENT_TODO)
title = _("Task");
else if (vtype == E_CAL_COMPONENT_JOURNAL)
title = _("Memo");
else
return pages;
cr = gtk_print_context_get_cairo_context (context);
/* Print the title in a box at the top of the page. */
font = get_font_for_size (18, PANGO_WEIGHT_BOLD);
header_size = 40;
if (page_nr == 0) {
print_border (context, 0.0, width, 0.0, header_size,
1.0, 0.9);
print_text (context, font, title, PANGO_ALIGN_CENTER, 0.0, width,
0.1, header_size - 0.1);
pango_font_description_free (font);
}
top += header_size + 30;
/* Summary */
font = get_font_for_size (18, PANGO_WEIGHT_BOLD);
e_cal_component_get_summary (comp, &text);
summary_string = g_strdup_printf (_("Summary: %s"), text.value);
top = bound_text (context, font, summary_string, -1, 0.0, top, width,
height, FALSE, &page_start, &pages);
g_free (summary_string);
/* Location */
e_cal_component_get_location (comp, &location);
if (location && location[0]) {
location_string = g_strdup_printf (_("Location: %s"),
location);
top = bound_text (context, font, location_string, -1, 0.0,
top + 3, width, height, FALSE, &page_start, &pages);
g_free (location_string);
}
/* Date information */
if (page_nr == 0)
print_date_label (
context, comp, client,
pci->zone, pci->use_24_hour_format,
0.0, width, top + 3, top + 15);
top += 20;
/* Attendees */
if ((page_nr == 0) && e_cal_component_has_attendees (comp)) {
top = bound_text (
context, font, _("Attendees: "), -1, 0.0,
top, width, height, FALSE, &page_start, &pages);
pango_font_description_free (font);
font = get_font_for_size (12, PANGO_WEIGHT_NORMAL);
top = print_attendees (
context, font, cr, 0.0, width,
top, height, comp, page_nr, &pages);
top += get_font_size (font) - 6;
}
pango_font_description_free (font);
font = get_font_for_size (12, PANGO_WEIGHT_NORMAL);
/* For a VTODO we print the Status, Priority, % Complete and URL. */
if (vtype == E_CAL_COMPONENT_TODO) {
icalproperty_status status;
const gchar *status_string = NULL;
gint *percent;
gint *priority;
const gchar *url;
/* Status */
e_cal_component_get_status (comp, &status);
if (status != ICAL_STATUS_NONE) {
switch (status) {
case ICAL_STATUS_NEEDSACTION:
status_string = _("Not Started");
break;
case ICAL_STATUS_INPROCESS:
status_string = _("In Progress");
break;
case ICAL_STATUS_COMPLETED:
status_string = _("Completed");
break;
case ICAL_STATUS_CANCELLED:
status_string = _("Canceled");
break;
default:
break;
}
if (status_string) {
gchar *status_text = g_strdup_printf (_("Status: %s"),
status_string);
top = bound_text (context, font, status_text, -1,
0.0, top, width, height, FALSE, &page_start, &pages);
top += get_font_size (font) - 6;
g_free (status_text);
}
}
/* Priority */
e_cal_component_get_priority (comp, &priority);
if (priority && *priority >= 0) {
gchar *pri_text;
pri_text = g_strdup_printf (
_("Priority: %s"),
e_cal_util_priority_to_string (*priority));
top = bound_text (
context, font, pri_text, -1,
0.0, top, width, height, FALSE,
&page_start, &pages);
top += get_font_size (font) - 6;
g_free (pri_text);
}
if (priority)
e_cal_component_free_priority (priority);
/* Percent Complete */
e_cal_component_get_percent (comp, &percent);
if (percent) {
gchar *percent_string;
percent_string = g_strdup_printf (_("Percent Complete: %i"), *percent);
e_cal_component_free_percent (percent);
top = bound_text (context, font, percent_string, -1,
0.0, top, width, height, FALSE, &page_start, &pages);
top += get_font_size (font) - 6;
}
/* URL */
e_cal_component_get_url (comp, &url);
if (url && url[0]) {
gchar *url_string = g_strdup_printf (_("URL: %s"),
url);
top = bound_text (context, font, url_string, -1,
0.0, top, width, height, TRUE, &page_start, &pages);
top += get_font_size (font) - 6;
g_free (url_string);
}
}
/* Categories */
e_cal_component_get_categories (comp, &categories);
if (categories && categories[0]) {
categories_string = g_strdup_printf (_("Categories: %s"),
categories);
top = bound_text (context, font, categories_string, -1,
0.0, top, width, height, TRUE, &page_start, &pages);
top += get_font_size (font) - 6;
g_free (categories_string);
}
/* Contacts */
e_cal_component_get_contact_list (comp, &contact_list);
if (contact_list) {
GString *contacts = g_string_new (_("Contacts: "));
for (elem = contact_list; elem; elem = elem->next) {
ECalComponentText *t = elem->data;
/* Put a comma between contacts. */
if (elem != contact_list)
g_string_append (contacts, ", ");
g_string_append (contacts, t->value);
}
e_cal_component_free_text_list (contact_list);
top = bound_text (context, font, contacts->str, -1,
0.0, top, width, height, TRUE, &page_start, &pages);
top += get_font_size (font) - 6;
g_string_free (contacts, TRUE);
}
top += 16;
/* Description */
e_cal_component_get_description_list (comp, &desc);
for (l = desc; l != NULL; l = l->next) {
ECalComponentText *ptext = l->data;
const gchar *line, *next_line;
for (line = ptext->value; line != NULL; line = next_line) {
next_line = strchr (line, '\n');
top = bound_text (
context, font, line,
next_line ? next_line - line : -1,
0.0, top + 3, width, height, TRUE,
&page_start, &pages);
if (next_line) {
next_line++;
if (!*next_line)
next_line = NULL;
}
}
}
e_cal_component_free_text_list (desc);
pango_font_description_free (font);
return pages;
}
static void
print_comp_draw_page (GtkPrintOperation *operation,
GtkPrintContext *context,
gint page_nr,
PrintCompItem *pci)
{
print_comp_draw_real (operation, context, page_nr, pci);
}
static void
print_comp_begin_print (GtkPrintOperation *operation,
GtkPrintContext *context,
PrintCompItem *pci)
{
gint pages;
pages = print_comp_draw_real (operation, context, -1, pci);
gtk_print_operation_set_n_pages (operation, pages);
}
void
print_comp (ECalComponent *comp,
ECal *client,
icaltimezone *zone,
gboolean use_24_hour_format,
GtkPrintOperationAction action)
{
GtkPrintOperation *operation;
PrintCompItem pci;
g_return_if_fail (E_IS_CAL_COMPONENT (comp));
pci.comp = comp;
pci.client = client;
pci.zone = zone;
pci.use_24_hour_format = use_24_hour_format;
operation = e_print_operation_new ();
gtk_print_operation_set_n_pages (operation, 1);
g_signal_connect (
operation, "begin-print",
G_CALLBACK (print_comp_begin_print), &pci);
g_signal_connect (
operation, "draw-page",
G_CALLBACK (print_comp_draw_page), &pci);
gtk_print_operation_run (operation, action, NULL, NULL);
g_object_unref (operation);
}
static void
print_title (GtkPrintContext *context, const gchar *text, gdouble page_width)
{
PangoFontDescription *desc;
PangoLayout *layout;
cairo_t *cr;
cr = gtk_print_context_get_cairo_context (context);
desc = pango_font_description_from_string (FONT_FAMILY " Bold 18");
layout = gtk_print_context_create_pango_layout (context);
pango_layout_set_text (layout, text, -1);
pango_layout_set_font_description (layout, desc);
pango_layout_set_alignment (layout, PANGO_ALIGN_CENTER);
pango_layout_set_width (layout, pango_units_from_double (page_width));
cairo_save (cr);
cairo_move_to (cr, 0.0, 0.0);
pango_cairo_show_layout (cr, layout);
cairo_translate (cr, 0.0, 18);
cairo_save (cr);
cairo_restore (cr);
g_object_unref (layout);
pango_font_description_free (desc);
}
struct print_opts {
EPrintable *printable;
const gchar *print_header;
};
static void
print_table_draw_page (GtkPrintOperation *operation,
GtkPrintContext *context,
gint page_nr,
struct print_opts *opts)
{
GtkPageSetup *setup;
gdouble width;
setup = gtk_print_context_get_page_setup (context);
width = gtk_page_setup_get_page_width (setup, GTK_UNIT_POINTS);
do {
/* TODO Allow the user to customize the title. */
print_title (context, opts->print_header, width);
if (e_printable_data_left (opts->printable))
e_printable_print_page (
opts->printable, context, width, 24, TRUE);
} while (e_printable_data_left (opts->printable));
g_free (opts);
}
void
print_table (ETable *table, const gchar *dialog_title,
const gchar *print_header, GtkPrintOperationAction action)
{
GtkPrintOperation *operation;
EPrintable *printable;
struct print_opts *opts;
printable = e_table_get_printable (table);
g_object_ref_sink (printable);
e_printable_reset (printable);
operation = e_print_operation_new ();
gtk_print_operation_set_n_pages (operation, 1);
opts = g_malloc (sizeof (struct print_opts));
opts->printable = printable;
opts->print_header = print_header;
g_signal_connect (
operation, "draw_page",
G_CALLBACK (print_table_draw_page), opts);
gtk_print_operation_run (operation, action, NULL, NULL);
g_object_unref (operation);
}