path: root/calendar/cal-util/calobj.c

/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */
/*
 * Calendar objects implementations.
 * Copyright (C) 1998 the Free Software Foundation
 *
 * Authors:
 *   Miguel de Icaza (miguel@gnu.org)
 *   Federico Mena (quartic@gimp.org)
 */
#include <config.h>
#include <string.h>
#include <glib.h>
#include <ctype.h>
#include <unistd.h>
#include <time.h>
#include "calobj.h"
#include "timeutil.h"
#include "libversit/vcc.h"
#include "icalendar-save.h"
#include "icalendar.h"



/* VCalendar product ID */
#define PRODID "-//Helix Code//NONSGML Evolution Calendar//EN"

static gint compare_exdates (gconstpointer a, gconstpointer b);
static void ical_object_normalize_summary (iCalObject *ico);
static void list_free (GList *list);



char *
ical_gen_uid (void)
{
    static char *hostname;
    time_t t = time (NULL);
    static int serial;

    if (!hostname){
        char buffer [128];

        if ((gethostname (buffer, sizeof (buffer)-1) == 0) &&
            (buffer [0] != 0))
            hostname = g_strdup (buffer);
        else
            hostname = g_strdup ("localhost");
    }

    return g_strdup_printf (
        "%s-%d-%d-%d-%d@%s",
        isodate_from_time_t (t),
        getpid (),
        getgid (),
        getppid (),
        serial++,
        hostname);
}

iCalObject *
ical_object_new (void)
{
    iCalObject *ico;

    ico = g_new0 (iCalObject, 1);

    ico->seq = -1;
    ico->dtstamp = time (NULL);
    ico->uid = ical_gen_uid ();

    ico->pilot_id = 0;
    ico->pilot_status = ICAL_PILOT_SYNC_MOD;

    ico->ref_count = 1;

    return ico;
}

iCalObject *
ical_new (char *comment, char *organizer, char *summary)
{
    iCalObject *ico;

    ico = ical_object_new ();

    ico->comment   = g_strdup (comment);
    ico->organizer = g_new0 (iCalPerson, 1);
    ico->organizer->addr = g_strdup (organizer);
    ico->summary   = g_strdup (summary);
    ico->class     = g_strdup ("PUBLIC");
    ico->status    = g_strdup ("NEEDS ACTION");

    ico->dalarm.type = ALARM_DISPLAY;
    ico->palarm.type = ALARM_PROGRAM;
    ico->malarm.type = ALARM_MAIL;
    ico->aalarm.type = ALARM_AUDIO;

    ical_object_normalize_summary (ico);

    return ico;
}


void
ical_object_ref (iCalObject *ico)
{
    ico->ref_count++;
}


#define free_if_defined(x) if (x){ g_free (x); x = 0; }
#define lfree_if_defined(x) if (x){ list_free (x); x = 0; }
static void
ical_object_destroy (iCalObject *ico)
{
    /* Regular strings */
    free_if_defined  (ico->comment);
    free_if_defined  (ico->organizer);
    free_if_defined  (ico->summary);
    free_if_defined  (ico->uid);
    free_if_defined  (ico->status);
    free_if_defined  (ico->class);
    free_if_defined  (ico->url);
    free_if_defined  (ico->recur);

    /* Lists */
    lfree_if_defined (ico->exdate);
    lfree_if_defined (ico->categories);
    lfree_if_defined (ico->resources);
    lfree_if_defined (ico->related);
    lfree_if_defined (ico->attach);

    /* Alarms */
    g_free (ico->dalarm.data);
    g_free (ico->palarm.data);
    g_free (ico->malarm.data);
    g_free (ico->aalarm.data);

    g_free (ico);
}

void
ical_object_unref (iCalObject *ico)
{
    ico->ref_count--;
    if (ico->ref_count == 0)
        ical_object_destroy (ico);
}


static void
my_free (gpointer data, gpointer user_dat_ignored)
{
    g_free (data);
}

static void
list_free (GList *list)
{
    g_list_foreach (list, my_free, 0);
    g_list_free (list);
}

/* This resets any recurrence rules of the iCalObject. */
void
ical_object_reset_recurrence (iCalObject *ico)
{
    free_if_defined  (ico->recur);
    lfree_if_defined (ico->exdate);
}

static GList *
set_list (char *str)
{
    GList *list = 0;
    char *s;

    for (s = strtok (str, ";"); s; s = strtok (NULL, ";"))
        list = g_list_prepend (list, g_strdup (s));

    return list;
}

static GList *
set_date_list (char *str)
{
    GList *list = 0;
    char *s;

    for (s = strtok (str, ";,"); s; s = strtok (NULL, ";,")){
        time_t *t = g_new (time_t, 1);

        while (*s && isspace (*s))
            s++;
        *t = time_from_isodate (s);
        list = g_list_prepend (list, t);
    }
    return list;
}

void
ical_object_add_exdate (iCalObject *o, time_t t)
{
    time_t *pt = g_new (time_t, 1);

    *pt = t;
    o->exdate = g_list_prepend (o->exdate, pt);
}

static void
ignore_space(char **str)
{
    while (**str && isspace (**str))
        (*str)++;
}

static void
skip_numbers (char **str)
{
    while (**str){
        ignore_space (str);
        if (!isdigit (**str))
            return;
        while (**str && isdigit (**str))
            (*str)++;
    }
}

static void
weekdaylist (iCalObject *o, char **str)
{
    int i;
    struct {
        char first_letter, second_letter;
        int  index;
    } days [] = {
        { 'S', 'U', 0 },
        { 'M', 'O', 1 },
        { 'T', 'U', 2 },
        { 'W', 'E', 3 },
        { 'T', 'H', 4 },
        { 'F', 'R', 5 },
        { 'S', 'A', 6 }
    };

    ignore_space (str);
    do {
        for (i = 0; i < 7; i++){
            if (**str == days [i].first_letter && *(*str+1) == days [i].second_letter){
                o->recur->weekday |= 1 << i;
                *str += 2;
                if (**str == ' ')
                    (*str)++;
            }
        }
    } while (isalpha (**str));

    if (o->recur->weekday == 0){
        struct tm tm = *localtime (&o->dtstart);

        o->recur->weekday = 1 << tm.tm_wday;
    }
}

static void
weekdaynum (iCalObject *o, char **str)
{
    int i;
    struct {
        char first_letter, second_letter;
        int  index;
    } days [] = {
        { 'S', 'U', 0 },
        { 'M', 'O', 1 },
        { 'T', 'U', 2 },
        { 'W', 'E', 3 },
        { 'T', 'H', 4 },
        { 'F', 'R', 5 },
        { 'S', 'A', 6 }
    };

    ignore_space (str);
    do {
        for (i = 0; i < 7; i++){
            if (**str == days [i].first_letter && *(*str+1) == days [i].second_letter){
                o->recur->weekday = i;
                *str += 2;
                if (**str == ' ')
                    (*str)++;
            }
        }
    } while (isalpha (**str));
}

static void
ocurrencelist (iCalObject *o, char **str)
{
    char *p;

    ignore_space (str);
    p = *str;
    if (!isdigit (*p))
        return;

    if (!(*p >= '1' && *p <= '5'))
        return;

    if (!(*(p+1) == '+' || *(p+1) == '-'))
        return;

    o->recur->u.month_pos = (*p-'0') * (*(p+1) == '+' ? 1 : -1);
    *str += 2;
}

#if 0

static void
daynumber (iCalObject *o, char **str)
{
    int val = 0;
    char *p = *str;

    ignore_space (str);
    if (strcmp (p, "LD")){
        o->recur->u.month_day = DAY_LASTDAY;
        *str += 2;
        return;
    }

    if (!(isdigit (*p)))
        return;

    while (**str && isdigit (**str)){
        val = val * 10 + (**str - '0');
        (*str)++;
    }

    if (**str == '+')
        (*str)++;

    if (**str == '-')
        val *= -1;
    o->recur->u.month_day = val;
}

#endif

static void
daynumberlist (iCalObject *o, char **str)
{
    int first = 0;
    int val = 0;

    ignore_space (str);

    while (**str){
        if (!isdigit (**str))
            return;
        while (**str && isdigit (**str)){
            val = 10 * val + (**str - '0');
            (*str)++;
        }
        if (!first){
            /*
             * Some broken applications set this to zero
             */
            if (val == 0){
                struct tm day = *localtime (&o->dtstart);

                val = day.tm_mday;
            }
            o->recur->u.month_day = val;
            first = 1;
            val = 0;
        }
    }
}

static void
load_recur_weekly (iCalObject *o, char **str)
{
    weekdaylist (o, str);
}

static void
load_recur_monthly_pos (iCalObject *o, char **str)
{
    ocurrencelist (o, str);
    weekdaynum (o, str);
}

static void
load_recur_monthly_day (iCalObject *o, char **str)
{
    daynumberlist (o, str);
}

static void
load_recur_yearly_month (iCalObject *o, char **str)
{
    /* Skip as we do not support multiple months and we do expect
     * the dtstart to agree with the value on this field
     */
    skip_numbers (str);
}

static void
load_recur_yearly_day (iCalObject *o, char **str)
{
    /* Skip as we do not support multiple days and we do expect
     * the dtstart to agree with the value on this field
     *
     * FIXME: we should support every-n-years
     */
    skip_numbers (str);
}

static void
duration (iCalObject *o, char **str)
{
    unsigned int duration = 0;

    ignore_space (str);
    if (**str != '#')
        return;
    (*str)++;
    while (**str && isdigit (**str)){
        duration = duration * 10 + (**str - '0');
        (*str)++;
    }
    o->recur->duration = duration;
}

static void
enddate (iCalObject *o, char **str)
{
    ignore_space (str);
    if (isdigit (**str)){
        o->recur->_enddate = time_from_isodate (*str);
        *str += 16;
    }
}

static int
load_recurrence (iCalObject *o, char *str)
{
    enum RecurType type;
    int  interval = 0;

    type = -1;
    switch (*str++){
    case 'D':
        type = RECUR_DAILY;
        break;

    case 'W':
        type = RECUR_WEEKLY;
        break;

    case 'M':
        if (*str == 'P')
            type = RECUR_MONTHLY_BY_POS;
            else if (*str == 'D')
            type = RECUR_MONTHLY_BY_DAY;
        str++;
        break;

    case 'Y':
        if (*str == 'M')
            type = RECUR_YEARLY_BY_MONTH;
        else if (*str == 'D')
            type = RECUR_YEARLY_BY_DAY;
        str++;
        break;
    }
    if (type == -1)
        return 0;

    o->recur = g_new0 (Recurrence, 1);
    o->recur->type = type;
    ignore_space (&str);

    /* Get the interval */
    for (;*str && isdigit (*str);str++)
        interval = interval * 10 + (*str-'0');

    if (interval == 0)
        interval = 1;

    o->recur->interval = interval;

    /* this is the default per the spec */
    o->recur->duration = 2;

    ignore_space (&str);

    switch (type){
    case RECUR_DAILY:
        break;
    case RECUR_WEEKLY:
        load_recur_weekly (o, &str);
        break;
    case RECUR_MONTHLY_BY_POS:
        load_recur_monthly_pos (o, &str);
        break;
    case RECUR_MONTHLY_BY_DAY:
        load_recur_monthly_day (o, &str);
        break;
    case RECUR_YEARLY_BY_MONTH:
        load_recur_yearly_month (o, &str);
        break;
    case RECUR_YEARLY_BY_DAY:
        load_recur_yearly_day (o, &str);
        break;
    default:
        g_warning ("Unimplemented recurrence type %d", (int) type);
        break;
    }
    duration (o, &str);
    enddate (o, &str);

    /* Compute the enddate */
    if (o->recur->_enddate == 0){
        if (o->recur->duration != 0){
            ical_object_compute_end (o);
        } else
            o->recur->enddate = 0;
    } else {
        o->recur->enddate = o->recur->_enddate;
    }
    return 1;
}

#define is_a_prop_of(obj,prop) isAPropertyOf (obj,prop)
#define str_val(obj) the_str = fakeCString (vObjectUStringZValue (obj))
#define has(obj,prop) (vo = isAPropertyOf (obj, prop))

/*
 * FIXME: This is loosing precission.  Enhanec the thresholds
 */
#define HOURS(n) (n*(60*60))

static void
setup_alarm_at (iCalObject *ico, CalendarAlarm *alarm, char *iso_time, VObject *vo)
{
    time_t alarm_time = time_from_isodate (iso_time);
    time_t base = ico->dtstart;
    int d = difftime (base, alarm_time);
    VObject *a;
    char *the_str;

    alarm->enabled = 1;
    if (d > HOURS (2)){
        if (d > HOURS (48)){
            alarm->count = d / HOURS (24);
            alarm->units = ALARM_DAYS;
        } else {
            alarm->count = d / (60*60);
            alarm->units = ALARM_HOURS;
        }
    } else {
        alarm->count = d / 60;
        alarm->units = ALARM_MINUTES;
    }

    if ((a = is_a_prop_of (vo, VCSnoozeTimeProp))){
        alarm->snooze_secs = isodiff_to_secs (str_val (a));
        free (the_str);
    }

    if ((a = is_a_prop_of (vo, VCRepeatCountProp))){
        alarm->snooze_repeat = atoi (str_val (a));
        free (the_str);
    }
}

/*
 * Duplicates an iCalObject.  Implementation is a grand hack.
 * If you need the new ICalObject to have a new uid, free the current one,
 * and call ical_gen_uid() to generate a new one.
 */
iCalObject *
ical_object_duplicate (iCalObject *o)
{
    VObject *vo;
    iCalObject *new;

    vo = ical_object_to_vobject (o);
    switch (o->type){
    case ICAL_EVENT:
        new = ical_object_create_from_vobject (vo, VCEventProp);
        break;
    case ICAL_TODO:
        new = ical_object_create_from_vobject (vo, VCTodoProp);
        break;
    default:
        new = NULL;
    }

    cleanVObject (vo);
    return new;
}

/* FIXME: we need to load the recurrence properties */
iCalObject *
ical_object_create_from_vobject (VObject *o, const char *object_name)
{
    time_t  now = time (NULL);
    iCalObject *ical;
    VObject *vo, *a;
    VObjectIterator i;
    char *the_str;

    ical = g_new0 (iCalObject, 1);

    if (strcmp (object_name, VCEventProp) == 0)
        ical->type = ICAL_EVENT;
    else if (strcmp (object_name, VCTodoProp) == 0)
        ical->type = ICAL_TODO;
    else {
        g_free (ical);
        return 0;
    }

    ical->ref_count = 1;

    /* uid */
    if (has (o, VCUniqueStringProp)){
        ical->uid = g_strdup (str_val (vo));
        free (the_str);
    } else {
        ical->uid = ical_gen_uid ();
    }

    /* seq */
    if (has (o, VCSequenceProp)){
        ical->seq = atoi (str_val (vo));
        free (the_str);
    } else
        ical->seq = 0;

    /* dtstart */
    if (has (o, VCDTstartProp)){
        ical->dtstart = time_from_isodate (str_val (vo));
        free (the_str);
    } else
        ical->dtstart = 0;

    /* dtend */
    ical->dtend = 0;    /* default value */
    if (ical->type == ICAL_EVENT){
        if (has (o, VCDTendProp)){
            ical->dtend = time_from_isodate (str_val (vo));
            free (the_str);
        }
    } else if (ical->type == ICAL_TODO){
        if (has (o, VCDueProp)){
            ical->dtend = time_from_isodate (str_val (vo));
            free (the_str);
        }
    }

    /* dcreated */
    if (has (o, VCDCreatedProp)){
        ical->created = time_from_isodate (str_val (vo));
        free (the_str);
    }

    /* completed */
    if (has (o, VCCompletedProp)){
        ical->completed = time_from_isodate (str_val (vo));
        free (the_str);
    }

    /* last_mod */
    if (has (o, VCLastModifiedProp)){
        ical->last_mod = time_from_isodate (str_val (vo));
        free (the_str);
    } else
        ical->last_mod = now;

    /* exdate */
    if (has (o, VCExpDateProp)){
        ical->exdate = set_date_list (str_val (vo));
        free (the_str);
    }

    /* description/comment */
    if (has (o, VCDescriptionProp)){
        ical->comment = g_strdup (str_val (vo));
        free (the_str);
    }

    /* summary */
    if (has (o, VCSummaryProp)){
        ical->summary = g_strdup (str_val (vo));
        free (the_str);

        /* Convert any CR/LF/CRLF sequences in the summary field to
           spaces so we just have a one-line field. */
        ical_object_normalize_summary (ical);
    } else 
        ical->summary = g_strdup ("");

    /* status */
    if (has (o, VCStatusProp)){
        ical->status = g_strdup (str_val (vo));
        free (the_str);
    } else
        ical->status = g_strdup ("NEEDS ACTION");

    if (has (o, VCClassProp)){
        ical->class = g_strdup (str_val (vo));
        free (the_str);
    } else
        ical->class = g_strdup ("PUBLIC");

    /* categories */
    if (has (o, VCCategoriesProp)){
        ical->categories = set_list (str_val (vo));
        free (the_str);
    }

    /* resources */
    if (has (o, VCResourcesProp)){
        ical->resources = set_list (str_val (vo));
        free (the_str);
    }

    /* priority */
    if (has (o, VCPriorityProp)){
        ical->priority = atoi (str_val (vo));
        free (the_str);
    }

    /* tranparency */
    if (has (o, VCTranspProp)){
        ical->transp = atoi (str_val (vo)) ? ICAL_TRANSPARENT : ICAL_OPAQUE;
        free (the_str);
    }

    /* Organizer */
    if (has (o, VCOrgNameProp)){
        ical->organizer = g_new0 (iCalPerson, 1);
        ical->organizer->addr = g_strdup (str_val (vo));
        free (the_str);
    }

    /* related */
    if (has (o, VCRelatedToProp)){
        char *str;
        char *s;
        iCalRelation *rel;
        str = str_val (vo);
        for (s = strtok (str, ";"); s; s = strtok (NULL, ";")) {
            rel = g_new0 (iCalRelation, 1);
            rel->uid = g_strdup (s);
            rel->reltype = g_strdup ("PARENT");
            ical->related = g_list_prepend (ical->related, rel);
        }
        free (the_str);
    }

    /* attach */
    initPropIterator (&i, o);
    while (moreIteration (&i)){
        vo = nextVObject (&i);
        if (strcmp (vObjectName (vo), VCAttachProp) == 0){
            ical->attach = g_list_prepend (ical->attach, g_strdup (str_val (vo)));
            free (the_str);
        }
    }

    /* url */
    if (has (o, VCURLProp)){
        ical->url = g_strdup (str_val (vo));
        free (the_str);
    }

    /* dalarm */
    ical->dalarm.type = ALARM_DISPLAY;
    ical->dalarm.enabled = 0;
    if (has (o, VCDAlarmProp)){
        if ((a = is_a_prop_of (vo, VCRunTimeProp))){
            setup_alarm_at (ical, &ical->dalarm, str_val (a), vo);
            free (the_str);
        }
    }

    /* aalarm */
    ical->aalarm.type = ALARM_AUDIO;
    ical->aalarm.enabled = 0;
    if (has (o, VCAAlarmProp)){
        if ((a = is_a_prop_of (vo, VCRunTimeProp))){
            setup_alarm_at (ical, &ical->aalarm, str_val (a), vo);
            free (the_str);
        }
    }

    /* palarm */
    ical->palarm.type = ALARM_PROGRAM;
    ical->palarm.enabled = 0;
    if (has (o, VCPAlarmProp)){
        ical->palarm.type = ALARM_PROGRAM;
        if ((a = is_a_prop_of (vo, VCRunTimeProp))){
            setup_alarm_at (ical, &ical->palarm, str_val (a), vo);
            free (the_str);

            if ((a = is_a_prop_of (vo, VCProcedureNameProp))){
                ical->palarm.data = g_strdup (str_val (a));
                free (the_str);
            } else
                ical->palarm.data = g_strdup ("");
        }
    }

    /* malarm */
    ical->malarm.type = ALARM_MAIL;
    ical->malarm.enabled = 0;
    if (has (o, VCMAlarmProp)){
        ical->malarm.type = ALARM_MAIL;
        if ((a = is_a_prop_of (vo, VCRunTimeProp))){
            setup_alarm_at (ical, &ical->malarm, str_val (a), vo);
            free (the_str);

            if ((a = is_a_prop_of (vo, VCEmailAddressProp))){
                ical->malarm.data = g_strdup (str_val (a));
                free (the_str);
            } else
                ical->malarm.data = g_strdup ("");
        }
    }

    /* rrule */
    if (has (o, VCRRuleProp)){
        if (!load_recurrence (ical, str_val (vo))) {
            ical_object_unref (ical);
            return NULL;
        }
        free (the_str);
    }

    /*
     * Pilot
     */
    if (has (o, XPilotIdProp)){
        ical->pilot_id = atoi (str_val (vo));
        free (the_str);
    } else
        ical->pilot_id = 0;

    if (has (o, XPilotStatusProp)){
        ical->pilot_status = atoi (str_val (vo));
        free (the_str);
    } else
        ical->pilot_status = ICAL_PILOT_SYNC_MOD;

    return ical;
}

static char *
to_str (int num)
{
    static char buf [40];

    sprintf (buf, "%d", num);
    return buf;
}

/*
 * stores a GList in the property.
 */
static void
store_list (VObject *o, char *prop, GList *values)
{
    GList *l;
    int len;
    char *result, *p;

    for (len = 0, l = values; l; l = l->next)
        len += strlen (l->data) + 1;

    result = g_malloc (len);

    for (p = result, l = values; l; l = l->next) {
        int len = strlen (l->data);

        strcpy (p, l->data);

        if (l->next) {
            p [len] = ';';
            p += len+1;
        } else
            p += len;
    }

    *p = 0;

    addPropValue (o, prop, result);
    g_free (result);
}

static void
store_rel_list (VObject *o, char *prop, GList *values)
{
    GList *l;
    int len;
    char *result, *p;
    
    for (len = 0, l = values; l; l = l->next)
        len += strlen (((iCalRelation*)(l->data))->uid) + 1;

    result = g_malloc (len);

    for (p = result, l = values; l; l = l->next) {
        int len = strlen (((iCalRelation*)(l->data))->uid);
        
        strcpy (p, ((iCalRelation*)(l->data))->uid);

        if (l->next) {
            p [len] = ';';
            p += len+1;
        } else
            p += len;
    }

    *p = 0;

    addPropValue (o, prop, result);
    g_free (result);
}

static void
store_date_list (VObject *o, char *prop, GList *values)
{
    GList *l;
    int   size, len;
    char  *s, *p;

    size = g_list_length (values);
    s = p = g_malloc ((size * 17 + 1) * sizeof (char));

    for (l = values; l; l = l->next){
        strcpy (s, isodate_from_time_t (*(time_t *)l->data));
        len = strlen (s);
        s [len] = ',';
        s += len + 1;
    }
    s--;
    *s = 0;
    addPropValue (o, prop, p);
    g_free (p);
}

static char *recur_type_name [] = { "D", "W", "MP", "MD", "YM", "YD" };
static char *recur_day_list  [] = { "SU", "MO", "TU","WE", "TH", "FR", "SA" };
static char *alarm_names [] = { VCMAlarmProp, VCPAlarmProp, VCDAlarmProp, VCAAlarmProp };

static VObject *
save_alarm (VObject *o, CalendarAlarm *alarm, iCalObject *ical)
{
    VObject *alarm_object;
    struct tm tm;
    time_t alarm_time;

    if (!alarm->enabled)
        return NULL;
    tm = *localtime (&ical->dtstart);
    switch (alarm->units){
    case ALARM_MINUTES:
        tm.tm_min -= alarm->count;
        break;

    case ALARM_HOURS:
        tm.tm_hour -= alarm->count;
        break;

    case ALARM_DAYS:
        tm.tm_mday -= alarm->count;
        break;
    }

    alarm_time = mktime (&tm);
    alarm_object = addProp (o, alarm_names [alarm->type]);
    addPropValue (alarm_object, VCRunTimeProp, isodate_from_time_t (alarm_time));

    if (alarm->snooze_secs)
        addPropValue (alarm_object, VCSnoozeTimeProp, isodiff_from_secs (alarm->snooze_secs));
    else
        addPropValue (alarm_object, VCSnoozeTimeProp, "");

    if (alarm->snooze_repeat){
        char buf [20];

        sprintf (buf, "%d", alarm->snooze_repeat);
        addPropValue (alarm_object, VCRepeatCountProp, buf);
    } else
        addPropValue (alarm_object, VCRepeatCountProp, "");
    return alarm_object;
}

VObject *
ical_object_to_vobject (iCalObject *ical)
{
    VObject *o, *alarm, *s;
    GList *l;

    if (ical->type == ICAL_EVENT)
        o = newVObject (VCEventProp);
    else
        o = newVObject (VCTodoProp);

    /* uid */
    if (ical->uid)
        addPropValue (o, VCUniqueStringProp, ical->uid);

    /* seq */
    addPropValue (o, VCSequenceProp, to_str (ical->seq));

    /* dtstart */
    addPropValue (o, VCDTstartProp, isodate_from_time_t (ical->dtstart));

    /* dtend */
    if (ical->type == ICAL_EVENT){
        addPropValue (o, VCDTendProp, isodate_from_time_t (ical->dtend));
    } else if (ical->type == ICAL_TODO){
        addPropValue (o, VCDueProp, isodate_from_time_t (ical->dtend));
    }

    /* dcreated */
    addPropValue (o, VCDCreatedProp, isodate_from_time_t (ical->created));

    /* completed */
    if (ical->completed)
        addPropValue (o, VCDTendProp, isodate_from_time_t (ical->completed));

    /* last_mod */
    addPropValue (o, VCLastModifiedProp, isodate_from_time_t (ical->last_mod));

    /* exdate */
    if (ical->exdate)
        store_date_list (o, VCExpDateProp, ical->exdate);

    /* description/comment */
    if (ical->comment && strlen (ical->comment)){
        s = addPropValue (o, VCDescriptionProp, ical->comment);
        if (strchr (ical->comment, '\n'))
            addProp (s, VCQuotedPrintableProp);
    }

    /* summary */
    if (ical->summary && strlen (ical->summary)) {
        s = addPropValue (o, VCSummaryProp, ical->summary);
        if (strchr (ical->summary, '\n'))
            addProp (s, VCQuotedPrintableProp);
    }
        
    /* status */
    addPropValue (o, VCStatusProp, ical->status);

    /* class */
    addPropValue (o, VCClassProp, ical->class);

    /* categories */
    if (ical->categories)
        store_list (o, VCCategoriesProp, ical->categories);

    /* resources */
    if (ical->resources)
        store_list (o, VCCategoriesProp, ical->resources);

    /* priority */
    addPropValue (o, VCPriorityProp, to_str (ical->priority));

    /* transparency */
    addPropValue (o, VCTranspProp, to_str (ical->transp));

    /* Owner/organizer */
    if (ical->organizer && ical->organizer->addr)
        addPropValue (o, VCOrgNameProp, ical->organizer->addr);

    /* related */
    if (ical->related)
        store_rel_list (o, VCRelatedToProp, ical->related);

    /* attach */
    for (l = ical->attach; l; l = l->next)
        addPropValue (o, VCAttachProp, l->data);

    /* url */
    if (ical->url)
        addPropValue (o, VCURLProp, ical->url);

    if (ical->recur){
        char result [256];
        char buffer [80];
        int i;

        sprintf (result, "%s%d ", recur_type_name [ical->recur->type], ical->recur->interval);
        switch (ical->recur->type){
        case RECUR_DAILY:
            break;

        case RECUR_WEEKLY:
            for (i = 0; i < 7; i++){
                if (ical->recur->weekday & (1 << i)){
                    sprintf (buffer, "%s ", recur_day_list [i]);
                    strcat (result, buffer);
                }
            }
            break;

        case RECUR_MONTHLY_BY_POS: {
            int nega = ical->recur->u.month_pos < 0;

            sprintf (buffer, "%d%s ", nega ? -ical->recur->u.month_pos : ical->recur->u.month_pos,
                 nega ? "-" : "+");
            strcat (result, buffer);
            /* the gui is set up for a single day, not a set here in this case */
            sprintf (buffer, "%s ", recur_day_list [ical->recur->weekday]);
            strcat (result, buffer);
        }
        break;

        case RECUR_MONTHLY_BY_DAY:
            sprintf (buffer, "%d ", ical->recur->u.month_pos);
            strcat (result, buffer);
            break;

        case RECUR_YEARLY_BY_MONTH:
            break;

        case RECUR_YEARLY_BY_DAY:
            break;
        }
        if (ical->recur->_enddate == 0)
            sprintf (buffer, "#%d ",ical->recur->duration);
        else
            sprintf (buffer, "%s ", isodate_from_time_t (ical->recur->_enddate));
        strcat (result, buffer);
        addPropValue (o, VCRRuleProp, result);
    }

    save_alarm (o, &ical->aalarm, ical);
    save_alarm (o, &ical->dalarm, ical);

    if ((alarm = save_alarm (o, &ical->palarm, ical)))
        addPropValue (alarm, VCProcedureNameProp, ical->palarm.data);
    if ((alarm = save_alarm (o, &ical->malarm, ical)))
        addPropValue (alarm, VCEmailAddressProp, ical->malarm.data);

    /* Pilot */
    {
        char buffer [20];

        sprintf (buffer, "%d", ical->pilot_id);
        addPropValue (o, XPilotIdProp, buffer);
        sprintf (buffer, "%d", ical->pilot_status);
        addPropValue (o, XPilotStatusProp, buffer);
    }

    return o;
}

void
ical_foreach (GList *events, calendarfn fn, void *closure)
{
    for (; events; events = events->next){
        iCalObject *ical = events->data;

        (*fn) (ical, ical->dtstart, ical->dtend, closure);
    }
}

static int
is_date_in_list (GList *list, struct tm *date)
{
    struct tm tm;

    for (; list; list = list->next){
        time_t *timep = list->data;

        tm = *localtime (timep);
        if (date->tm_mday == tm.tm_mday &&
            date->tm_mon  == tm.tm_mon &&
            date->tm_year == tm.tm_year){
            return 1;
        }
    }
    return 0;
}

/* Generates an event instance based on the reference time */
static gboolean
generate (iCalObject *ico, time_t reference, calendarfn cb, void *closure)
{
    time_t offset;
    struct tm tm_start, ref;
    time_t start, end;

    offset = ico->dtend - ico->dtstart;

    tm_start = *localtime (&ico->dtstart);
    ref      = *localtime (&reference);

    tm_start.tm_mday = ref.tm_mday;
    tm_start.tm_mon  = ref.tm_mon;
    tm_start.tm_year = ref.tm_year;

    start = mktime (&tm_start);
    if (start == -1) {
        g_message ("generate(): Produced invalid start date!");
        return FALSE;
    }

    end = start + offset;

#if 0
    /* FIXME: I think this is not needed, since we are offsetting by full day values,
     * and the times should remain the same --- if you have a daily appointment
     * at 18:00, it is always at 18:00 even during daylight savings.
     *
     * However, what should happen on the exact change-of-savings day with
     * appointments in the early morning hours?
     */

    if (ref.tm_isdst > tm_start.tm_isdst) {
        tm_start.tm_hour--;
        tm_end.tm_hour--;
    } else if (ref.tm_isdst < tm_start.tm_isdst) {
        tm_start.tm_hour++;
        tm_end.tm_hour++;
    }
#endif

    if (ico->exdate && is_date_in_list (ico->exdate, &tm_start))
        return TRUE;

    return (*cb) (ico, start, end, closure);
}

int
ical_object_get_first_weekday (int weekday_mask)
{
    int i;

    for (i = 0; i < 7; i++)
        if (weekday_mask & (1 << i))
            return i;

    return -1;
}

#define time_in_range(t, a, b) ((t >= a) && (b ? (t < b) : 1))
#define recur_in_range(t, r) (r->enddate ? (t < r->enddate) : 1)

/*
 * Generate every possible event.  Invokes the callback routine for
 * every occurrence of the event in the [START, END] time interval.
 *
 * If END is zero, the event is generated forever.
 * The callback routine is expected to return 0 when no further event
 * generation is requested.
 */
void
ical_object_generate_events (iCalObject *ico, time_t start, time_t end, calendarfn cb, void *closure)
{
    time_t current;
    int first_week_day;

    /* If there is no recurrence, just check ranges */

    if (!ico->recur) {
        if ((end && (ico->dtstart < end) && (ico->dtend > start))
            || ((end == 0) && (ico->dtend > start))) {
            /* The new calendar views expect the times to not be
               clipped, so they can show that it continues past
               the end of the viewable area. */
#if 0
            time_t ev_s, ev_e;

            /* Clip range */

            ev_s = MAX (ico->dtstart, start);
            ev_e = MIN (ico->dtend, end);

            (* cb) (ico, ev_s, ev_e, closure);
#else
            (* cb) (ico, ico->dtstart, ico->dtend, closure);
#endif
        }
        return;
    }

    /* The event has a recurrence rule -- check that we will generate at least one instance */

    if (end != 0) {
        if (ico->dtstart > end)
            return;

        if (!IS_INFINITE (ico->recur) && (ico->recur->enddate < start))
            return;
    }

    /* Generate the instances */

    current = ico->dtstart;

    switch (ico->recur->type) {
    case RECUR_DAILY:
        do {
            if (time_in_range (current, start, end) && recur_in_range (current, ico->recur))
                if (!generate (ico, current, cb, closure))
                    return;

            /* Advance */

            current = time_add_day (current, ico->recur->interval);

            if (current == -1) {
                g_warning ("RECUR_DAILY: time_add_day() returned invalid time");
                return;
            }
        } while ((current < end) || (end == 0));

        break;

    case RECUR_WEEKLY:
        do {
            struct tm tm;

            tm = *localtime (&current);

            if (time_in_range (current, start, end) && recur_in_range (current, ico->recur)) {
                /* Weekdays to recur on are specified as a bitmask */
              if (ico->recur->weekday & (1 << tm.tm_wday)) {
                    if (!generate (ico, current, cb, closure))
                        return;
              }
            }

            /* Advance by day for scanning the week or by interval at week end */

            if (tm.tm_wday == 6)
                current = time_add_day (current, (ico->recur->interval - 1) * 7 + 1);
            else
                current = time_add_day (current, 1);

            if (current == -1) {
                g_warning ("RECUR_WEEKLY: time_add_day() returned invalid time\n");
                return;
            }
        } while (current < end || (end == 0));

        break;

    case RECUR_MONTHLY_BY_POS:
        /* FIXME: We only deal with positives now */
        if (ico->recur->u.month_pos < 0) {
            g_warning ("RECUR_MONTHLY_BY_POS does not support negative positions yet");
            return;
        }

        if (ico->recur->u.month_pos == 0)
            return;

        first_week_day = /* ical_object_get_first_weekday (ico->recur->weekday);  */
            ico->recur->weekday; /* the i/f only lets you choose a single day of the week! */

        /* This should not happen, but take it into account */
        if (first_week_day == -1) {
            g_warning ("ical_object_get_first_weekday() returned -1");
            return;
        }

        do {
            struct tm tm;
            time_t t;
            int    week_day_start;

            tm = *localtime (&current);
            tm.tm_mday = 1;
            t = mktime (&tm);
            tm = *localtime (&t);
            week_day_start = tm.tm_wday;

            tm.tm_mday = (7 * (ico->recur->u.month_pos - ((week_day_start <= first_week_day ) ? 1 : 0))
                      - (week_day_start - first_week_day) + 1);
            if( tm.tm_mday > 31 )
            {
                tm.tm_mday = 1;
                tm.tm_mon += ico->recur->interval;
                current = mktime (&tm);
                continue;
            }

            switch( tm.tm_mon )
            {
            case 3:
            case 5:
            case 8:
            case 10:
                if( tm.tm_mday > 30 )
                {
                    tm.tm_mday = 1;
                    tm.tm_mon += ico->recur->interval;
                    current = mktime (&tm);
                    continue;
                }
                break;
            case 1:
                if( ((tm.tm_year+1900)%4) == 0
                    && ((tm.tm_year+1900)%400) != 100
                    && ((tm.tm_year+1900)%400) != 200
                    && ((tm.tm_year+1900)%400) != 300 )
                {

                    if( tm.tm_mday > 29 )
                    {
                        tm.tm_mday = 1;
                        tm.tm_mon += ico->recur->interval;
                        current = mktime (&tm);
                        continue;
                    }
                }
                else
                {
                    if( tm.tm_mday > 28 )
                    {
                        tm.tm_mday = 1;
                        tm.tm_mon += ico->recur->interval;
                        current = mktime (&tm);
                        continue;
                    }
                }
                break;
            }

            t = mktime (&tm);

            if (time_in_range (t, start, end) && recur_in_range (current, ico->recur))
                if (!generate (ico, t, cb, closure))
                    return;

            /* Advance by the appropriate number of months */

            current = mktime (&tm);

            tm.tm_mday = 1;
            tm.tm_mon += ico->recur->interval;
            current = mktime (&tm);

            if (current == -1) {
                g_warning ("RECUR_MONTHLY_BY_DAY: mktime error\n");
                return;
            }
        } while ((current < end) || (end == 0));

        break;

    case RECUR_MONTHLY_BY_DAY:
        do {
            struct tm tm;
            time_t t;
            int    p;

            tm = *localtime (&current);

            p = tm.tm_mday;
            tm.tm_mday = ico->recur->u.month_day;
            t = mktime (&tm);
            if (time_in_range (t, start, end) && recur_in_range (current, ico->recur))
                if (!generate (ico, t, cb, closure))
                    return;

            /* Advance by the appropriate number of months */

            tm.tm_mday = p;
            tm.tm_mon += ico->recur->interval;
            current = mktime (&tm);

            if (current == -1) {
                g_warning ("RECUR_MONTHLY_BY_DAY: mktime error\n");
                return;
            }
        } while (current < end || (end == 0));

        break;

    case RECUR_YEARLY_BY_MONTH:
    case RECUR_YEARLY_BY_DAY:
        do {
            if (time_in_range (current, start, end) && recur_in_range (current, ico->recur))
                if (!generate (ico, current, cb, closure))
                    return;

            /* Advance */

            current = time_add_year (current, ico->recur->interval);
        } while (current < end || (end == 0));

        break;

    default:
        g_assert_not_reached ();
    }
}

static int
duration_callback (iCalObject *ico, time_t start, time_t end, void *closure)
{
    int *count = closure;
    struct tm tm;

    tm = *localtime (&start);

    (*count)++;
    if (ico->recur->duration == *count) {
        ico->recur->enddate = time_day_end (end);
        return 0;
    }
    return 1;
}

/* Computes ico->recur->enddate from ico->recur->duration */
void
ical_object_compute_end (iCalObject *ico)
{
    int count = 0;

    g_return_if_fail (ico->recur != NULL);

    ico->recur->_enddate = 0;
    ico->recur->enddate = 0;
    ical_object_generate_events (ico, ico->dtstart, 0, duration_callback, &count);
}

int
alarm_compute_offset (CalendarAlarm *a)
{
    if (!a->enabled)
        return -1;
    switch (a->units){
    case ALARM_MINUTES:
        a->offset = a->count * 60;
        break;
    case ALARM_HOURS:
        a->offset = a->count * 3600;
        break;
    case ALARM_DAYS:
        a->offset = a->count * 24 * 3600;
    }
    return a->offset;
}


/**
 * ical_object_find_in_string:
 * @uid: Unique identifier of the sought object.
 * @vcalobj: String representation of a complete calendar object.
 * @ico: The resulting #iCalObject is stored here.
 *
 * Parses a complete vCalendar object string and tries to find the calendar
 * object that matches the specified @uid.  If found, it stores the resulting
 * #iCalObject in the @ico parameter.
 *
 * Return value: A result code depending on whether the parse and search were
 * successful.
 **/
CalObjFindStatus
ical_object_find_in_string (const char *uid, const char *vcalobj, iCalObject **ico)
{
#if 0
    icalcomponent* comp = NULL;
    icalcomponent *subcomp;
    iCalObject    *ical;

    g_return_val_if_fail (vcalobj != NULL, CAL_OBJ_FIND_NOT_FOUND);

    comp = icalparser_parse_string (vcalobj);

    if (!comp) {
        printf ("CAL_OBJ_FIND_SYNTAX_ERROR #1\n");
        return CAL_OBJ_FIND_SYNTAX_ERROR;
    }

    subcomp = icalcomponent_get_first_component (comp,
                             ICAL_ANY_COMPONENT);
    if (!subcomp) {
        printf ("CAL_OBJ_FIND_SYNTAX_ERROR #2\n");
        return CAL_OBJ_FIND_SYNTAX_ERROR;
    }

    while (subcomp) {
        ical = ical_object_create_from_icalcomponent (subcomp);
        if (ical->type != ICAL_EVENT && 
            ical->type != ICAL_TODO  &&
            ical->type != ICAL_JOURNAL) {
            g_warning ("Skipping unsupported iCalendar component");
        } else {
            if (strcasecmp (ical->uid, uid) == 0) {
                (*ico) = ical;
                (*ico)->ref_count = 1;
                printf ("CAL_OBJ_FIND_SUCCESS\n");

    printf ("ical_object_find_in_string:\n");
    printf ("-----------------------------------------------------\n");
    dump_icalobject (*ico);
    printf ("-----------------------------------------------------\n");


                return CAL_OBJ_FIND_SUCCESS;
            }
        }
        subcomp = icalcomponent_get_next_component (comp,
                               ICAL_ANY_COMPONENT);
    }

    printf ("CAL_OBJ_FIND_NOT_FOUND\n");
    return CAL_OBJ_FIND_NOT_FOUND;

#else /* 1 */
    VObject *vcal;
    VObjectIterator i;
    CalObjFindStatus status;

    g_return_val_if_fail (uid != NULL, CAL_OBJ_FIND_SYNTAX_ERROR);
    g_return_val_if_fail (vcalobj != NULL, CAL_OBJ_FIND_SYNTAX_ERROR);
    g_return_val_if_fail (ico != NULL, CAL_OBJ_FIND_SYNTAX_ERROR);

    *ico = NULL;
    status = CAL_OBJ_FIND_NOT_FOUND;

    vcal = Parse_MIME (vcalobj, strlen (vcalobj));

    if (!vcal)
        return CAL_OBJ_FIND_SYNTAX_ERROR;

    initPropIterator (&i, vcal);

    while (moreIteration (&i)) {
        VObject *vobj;
        VObject *uid_prop;
        char *the_str;

        vobj = nextVObject (&i);

        uid_prop = isAPropertyOf (vobj, VCUniqueStringProp);
        if (!uid_prop)
            continue;

        /* str_val() sets the_str to the string representation of the
         * property.
         */
        str_val (uid_prop);

        if (strcmp (the_str, uid) == 0) {
            const char *object_name;

            object_name = vObjectName (vobj);
            *ico = ical_object_create_from_vobject (vobj, object_name);

            if (*ico)
                status = CAL_OBJ_FIND_SUCCESS;
        }

        free (the_str);

        if (status == CAL_OBJ_FIND_SUCCESS)
            break;
    }

    cleanVObject (vcal);
    cleanStrTbl ();

    return status;
#endif /* 1 */
}


#if 1
/* Creates a VObject with the base information of a calendar */
static VObject *
get_calendar_base_vobject (void)
{
    VObject *vobj;
    time_t now;
    struct tm tm;

    /* We call localtime for the side effect of setting tzname */

    now = time (NULL);
    tm = *localtime (&now);

    vobj = newVObject (VCCalProp);

    addPropValue (vobj, VCProdIdProp, PRODID);

#if defined (HAVE_TM_ZONE)
    addPropValue (vobj, VCTimeZoneProp, tm.tm_zone);
#elif defined (HAVE_TZNAME)
    addPropValue (vobj, VCTimeZoneProp, tzname[0]);
#endif

    /* Per the vCalendar spec, this must be "1.0" */
    addPropValue (vobj, VCVersionProp, "1.0");

    return vobj;
}
#endif /* 0 */

/**
 * ical_object_to_string:
 * @ico: A calendar object.
 * 
 * Converts a vCalendar object to its string representation.  It is wrapped
 * inside a complete VCALENDAR object because other auxiliary information such
 * as timezones may appear there.
 * 
 * Return value: String representation of the object.
 **/
char *
ical_object_to_string (iCalObject *ico)
{
#if 0
    icalcomponent *top = icalcomponent_new (ICAL_VCALENDAR_COMPONENT);
    char *out_cal_string;
    icalcomponent *comp;

    printf ("ical_object_to_string:\n");
    printf ("-----------------------------------------------------\n");
    dump_icalobject (ico);
    printf ("-----------------------------------------------------\n");

    comp = icalcomponent_create_from_ical_object (ico);
    icalcomponent_add_component (top, comp);
    out_cal_string = icalcomponent_as_ical_string (top);
    return g_strdup (out_cal_string);

#else /* 1 */
    VObject *vcalobj, *vobj;
    char *buf, *gbuf;

    vcalobj = get_calendar_base_vobject ();
    vobj = ical_object_to_vobject (ico);
    addVObjectProp (vcalobj, vobj);

    buf = writeMemVObject (NULL, NULL, vcalobj);

    cleanVObject (vcalobj);
    cleanStrTbl ();

    /* We have to g_strdup() it because libversit uses malloc()/realloc(),
     * and we want clients to be able to use g_free().  Sigh.
     */
    gbuf = g_strdup (buf);
    free (buf);

    return gbuf;
#endif /* 1 */
}


/**
 * ical_object_compare_dates:
 * @ico1: A calendar event.
 * @ico2: A calendar event to compare with @ico1.
 * 
 * Returns TRUE if the dates of both objects match, including any recurrence
 * rules. Both calendar objects must have a type of ICAL_EVENT.
 * 
 * Return value: TRUE if both calendar objects have the same dates.
 **/
gboolean
ical_object_compare_dates (iCalObject *ico1,
               iCalObject *ico2)
{
    Recurrence *recur1, *recur2;
    gint num_exdates;
    GList *elem1, *elem2;
    time_t *time1, *time2;

    g_return_val_if_fail (ico1 != NULL, FALSE);
    g_return_val_if_fail (ico2 != NULL, FALSE);
    g_return_val_if_fail (ico1->type == ICAL_EVENT, FALSE);
    g_return_val_if_fail (ico2->type == ICAL_EVENT, FALSE);

    /* First check the base dates. */
    if (ico1->dtstart != ico2->dtstart
        || ico1->dtend != ico2->dtend)
        return FALSE;

    recur1 = ico1->recur;
    recur2 = ico2->recur;

    /* If the event doesn't recur, we already know it matches. */
    if (!recur1 && !recur2)
        return TRUE;

    /* Check that both recur. */
    if (!(recur1 && recur2))
        return FALSE;

    /* Now we need to see if the recurrence rules are the same. */
    if (recur1->type != recur2->type
        || recur1->interval != recur2->interval
        || recur1->enddate != recur2->enddate
        || recur1->weekday != recur2->weekday
        || recur1->duration != recur2->duration
        || recur1->_enddate != recur2->_enddate
        || recur1->__count != recur2->__count)
        return FALSE;

    switch (recur1->type) {
    case RECUR_MONTHLY_BY_POS:
        if (recur1->u.month_pos != recur2->u.month_pos)
            return FALSE;
        break;
    case RECUR_MONTHLY_BY_DAY:
        if (recur1->u.month_day != recur2->u.month_day)
            return FALSE;
        break;
    default:
        break;
    }

    /* Now check if the excluded dates match. */
    num_exdates = g_list_length (ico1->exdate);
    if (g_list_length (ico2->exdate) != num_exdates)
        return FALSE;
    if (num_exdates == 0)
        return TRUE;

    ico1->exdate = g_list_sort (ico1->exdate, compare_exdates);
    ico2->exdate = g_list_sort (ico2->exdate, compare_exdates);

    elem1 = ico1->exdate;
    elem2 = ico2->exdate;
    while (elem1) {
        time1 = (time_t*) elem1->data;
        time2 = (time_t*) elem2->data;

        if (*time1 != *time2)
            return FALSE;

        elem1 = elem1->next;
        elem2 = elem2->next;
    }

    return TRUE;
}


static gint
compare_exdates (gconstpointer a, gconstpointer b)
{
    const time_t *ca = a, *cb = b;
    time_t diff = *ca - *cb;
    return (diff < 0) ? -1 : (diff > 0) ? 1 : 0;
}


/* Converts any CR/LF sequences in the summary field to spaces so we just
   have a one-line field. The iCalObjects summary field is changed. */
static void
ical_object_normalize_summary (iCalObject *ico)
{
    gchar *src, *dest, ch;
    gboolean just_output_space = FALSE;

    src = dest = ico->summary;
    while ((ch = *src++)) {
        if (ch == '\n' || ch == '\r') {
            /* We only output 1 space for each sequence of CR & LF
               characters. */
            if (!just_output_space) {
                *dest++ = ' ';
                just_output_space = TRUE;
            }
        } else {
            *dest++ = ch;
            just_output_space = FALSE;
        }
    }
    *dest = '\0';
}


void dump_icalobject (iCalObject *ico)
{
    if (!ico) {
        printf ("<<NULL>>\n");
        return;
    }

    printf ("type ");
    switch (ico->type) {
    case ICAL_EVENT: printf ("event"); break;
    case ICAL_TODO: printf ("todo"); break;
    case ICAL_JOURNAL: printf ("journal"); break;
    case ICAL_FBREQUEST: printf ("fbrequest"); break;
    case ICAL_FBREPLY: printf ("fbreply"); break;
    case ICAL_BUSYTIME: printf ("busytime"); break;
    case ICAL_TIMEZONE: printf ("timezone"); break;
    }
    printf ("\n");

    printf ("attach-length %d\n", g_list_length (ico->attach));

    printf ("attendee-length %d\n", g_list_length (ico->attendee));

    printf ("catagories-length %d\n", g_list_length (ico->categories));

    printf ("class '%s'\n", ico->class ? ico->class : "NULL");

    printf ("comment '%s'\n", ico->comment ? ico->comment : "NULL");

    printf ("completed %ld=%s",
        ico->completed, ctime (&ico->completed));

    printf ("created %ld=%s", ico->created, ctime (&ico->created));

    printf ("contact-length %d\n", g_list_length (ico->contact));

    printf ("desc '%s'\n", ico->desc ? ico->desc : "NULL");

    printf ("dtstamp %ld=%s", ico->dtstamp, ctime (&ico->dtstamp));

    printf ("dtstart %ld=%s", ico->dtstart, ctime (&ico->dtstart));

    printf ("dtend %ld=%s", ico->dtend, ctime (&ico->dtend));

    printf ("date_only %d\n", ico->date_only);

    printf ("exdate-length %d\n", g_list_length (ico->exdate));

    printf ("exrule-length %d\n", g_list_length (ico->exrule));

    printf ("iCalGeo %d %f %f\n",
        ico->geo.valid, ico->geo.latitude, ico->geo.longitude);

    printf ("last_mod %ld=%s", ico->last_mod, ctime (&ico->last_mod));

    printf ("location '%s'\n", ico->location ? ico->location : "NULL");

    printf ("organizer %p\n", ico->organizer);

    printf ("percent %d\n", ico->percent);

    printf ("priority %d\n", ico->priority);

    printf ("rstatus '%s'\n", ico->rstatus ? ico->rstatus : "NULL");

    printf ("related-length %d\n", g_list_length (ico->related));

    printf ("resources-length %d\n", g_list_length (ico->resources));

    printf ("rdate-length %d\n", g_list_length (ico->rdate));

    printf ("rrule-length %d\n", g_list_length (ico->rrule));

    printf ("seq %d\n", ico->seq);

    printf ("status '%s'\n", ico->status ? ico->status : "NULL");

    printf ("summary '%s'\n", ico->summary ? ico->summary : "NULL");

    printf ("transp ");
    switch (ico->transp) {
    case ICAL_OPAQUE: printf ("opaque"); break;
    case ICAL_TRANSPARENT: printf ("transparent"); break;
    }
    printf ("\n");

    printf ("uid '%s'\n", ico->uid ? ico->uid : "NULL");

    printf ("url '%s'\n", ico->url ? ico->url : "NULL");

    printf ("recurid %ld=%s", ico->recurid, ctime (&ico->recurid));

    printf ("dalarm %d\n", ico->dalarm.enabled);

    printf ("aalarm %d\n", ico->aalarm.enabled);

    printf ("palarm %d\n", ico->palarm.enabled);

    printf ("malarm %d\n", ico->malarm.enabled);

    printf ("alarms-length %d\n", g_list_length (ico->alarms));

    printf ("recur %p\n", ico->recur);

    printf ("new %d\n", ico->new);

    printf ("user_data %p\n", ico->user_data);

    printf ("ref_count %d\n", ico->ref_count);
}