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authorLukas Fleischer <calcurse@cryptocrack.de>2013-04-13 23:31:06 +0200
committerLukas Fleischer <calcurse@cryptocrack.de>2013-04-14 00:19:01 +0200
commit694d28eb78dfad98e2e7ea670d93a153d8efd368 (patch)
tree485dc11d3644d9dadb5fd4d67c5ef8103be79623 /src/pcal.c
parent9907069f442c56c90b67accb2d8fbd046dfce6db (diff)
downloadcalcurse-694d28eb78dfad98e2e7ea670d93a153d8efd368.tar.gz
calcurse-694d28eb78dfad98e2e7ea670d93a153d8efd368.zip
Use tabs instead of spaces for indentation
This completes our switch to the Linux kernel coding style. Note that we still use deeply nested constructs at some places which need to be fixed up later. Converted using the `Lindent` script from the Linux kernel code base, along with some manual fixes. Signed-off-by: Lukas Fleischer <calcurse@cryptocrack.de>
Diffstat (limited to 'src/pcal.c')
-rw-r--r--src/pcal.c384
1 files changed, 213 insertions, 171 deletions
diff --git a/src/pcal.c b/src/pcal.c
index e2721e6..a9fdefd 100644
--- a/src/pcal.c
+++ b/src/pcal.c
@@ -56,55 +56,60 @@ typedef void (*cb_dump_t) (FILE *, long, long, char *);
*/
static void
foreach_date_dump(const long date_end, struct rpt *rpt, llist_t * exc,
- long item_first_date, long item_dur, char *item_mesg,
- cb_dump_t cb_dump, FILE * stream)
+ long item_first_date, long item_dur, char *item_mesg,
+ cb_dump_t cb_dump, FILE * stream)
{
- long date, item_time;
- struct tm lt;
- time_t t;
+ long date, item_time;
+ struct tm lt;
+ time_t t;
- t = item_first_date;
- localtime_r(&t, &lt);
- lt.tm_hour = lt.tm_min = lt.tm_sec = 0;
- lt.tm_isdst = -1;
- date = mktime(&lt);
- item_time = item_first_date - date;
+ t = item_first_date;
+ localtime_r(&t, &lt);
+ lt.tm_hour = lt.tm_min = lt.tm_sec = 0;
+ lt.tm_isdst = -1;
+ date = mktime(&lt);
+ item_time = item_first_date - date;
- while (date <= date_end && date <= rpt->until) {
- if (recur_item_inday(item_first_date, item_dur, exc, rpt->type,
- rpt->freq, rpt->until, date)) {
- (*cb_dump) (stream, date + item_time, item_dur, item_mesg);
- }
- switch (rpt->type) {
- case RECUR_DAILY:
- date = date_sec_change(date, 0, rpt->freq);
- break;
- case RECUR_WEEKLY:
- date = date_sec_change(date, 0, rpt->freq * WEEKINDAYS);
- break;
- case RECUR_MONTHLY:
- date = date_sec_change(date, rpt->freq, 0);
- break;
- case RECUR_YEARLY:
- date = date_sec_change(date, rpt->freq * 12, 0);
- break;
- default:
- EXIT(_("incoherent repetition type"));
- /* NOTREACHED */
- break;
- }
- }
+ while (date <= date_end && date <= rpt->until) {
+ if (recur_item_inday
+ (item_first_date, item_dur, exc, rpt->type, rpt->freq,
+ rpt->until, date)) {
+ (*cb_dump) (stream, date + item_time, item_dur,
+ item_mesg);
+ }
+ switch (rpt->type) {
+ case RECUR_DAILY:
+ date = date_sec_change(date, 0, rpt->freq);
+ break;
+ case RECUR_WEEKLY:
+ date =
+ date_sec_change(date, 0,
+ rpt->freq * WEEKINDAYS);
+ break;
+ case RECUR_MONTHLY:
+ date = date_sec_change(date, rpt->freq, 0);
+ break;
+ case RECUR_YEARLY:
+ date = date_sec_change(date, rpt->freq * 12, 0);
+ break;
+ default:
+ EXIT(_("incoherent repetition type"));
+ /* NOTREACHED */
+ break;
+ }
+ }
}
static void pcal_export_header(FILE * stream)
{
- fputs("# calcurse pcal export\n", stream);
- fputs("\n# =======\n# options\n# =======\n", stream);
- fprintf(stream, "opt -A -K -l -m -F %s\n",
- ui_calendar_week_begins_on_monday()? "Monday" : "Sunday");
- fputs("# Display week number (i.e. 1-52) on every Monday\n", stream);
- fprintf(stream, "all monday in all week %%w\n");
- fputc('\n', stream);
+ fputs("# calcurse pcal export\n", stream);
+ fputs("\n# =======\n# options\n# =======\n", stream);
+ fprintf(stream, "opt -A -K -l -m -F %s\n",
+ ui_calendar_week_begins_on_monday()? "Monday" : "Sunday");
+ fputs("# Display week number (i.e. 1-52) on every Monday\n",
+ stream);
+ fprintf(stream, "all monday in all week %%w\n");
+ fputc('\n', stream);
}
static void pcal_export_footer(FILE * stream)
@@ -114,178 +119,215 @@ static void pcal_export_footer(FILE * stream)
/* Format and dump event data to a pcal formatted file. */
static void
pcal_dump_event(FILE * stream, long event_date, long event_dur,
- char *event_mesg)
+ char *event_mesg)
{
- char pcal_date[BUFSIZ];
+ char pcal_date[BUFSIZ];
- date_sec2date_fmt(event_date, "%b %d", pcal_date);
- fprintf(stream, "%s %s\n", pcal_date, event_mesg);
+ date_sec2date_fmt(event_date, "%b %d", pcal_date);
+ fprintf(stream, "%s %s\n", pcal_date, event_mesg);
}
/* Format and dump appointment data to a pcal formatted file. */
static void
pcal_dump_apoint(FILE * stream, long apoint_date, long apoint_dur,
- char *apoint_mesg)
+ char *apoint_mesg)
{
- char pcal_date[BUFSIZ], pcal_beg[BUFSIZ], pcal_end[BUFSIZ];
+ char pcal_date[BUFSIZ], pcal_beg[BUFSIZ], pcal_end[BUFSIZ];
- date_sec2date_fmt(apoint_date, "%b %d", pcal_date);
- date_sec2date_fmt(apoint_date, "%R", pcal_beg);
- date_sec2date_fmt(apoint_date + apoint_dur, "%R", pcal_end);
- fprintf(stream, "%s ", pcal_date);
- fprintf(stream, "(%s -> %s) %s\n", pcal_beg, pcal_end, apoint_mesg);
+ date_sec2date_fmt(apoint_date, "%b %d", pcal_date);
+ date_sec2date_fmt(apoint_date, "%R", pcal_beg);
+ date_sec2date_fmt(apoint_date + apoint_dur, "%R", pcal_end);
+ fprintf(stream, "%s ", pcal_date);
+ fprintf(stream, "(%s -> %s) %s\n", pcal_beg, pcal_end,
+ apoint_mesg);
}
static void pcal_export_recur_events(FILE * stream)
{
- llist_item_t *i;
- char pcal_date[BUFSIZ];
+ llist_item_t *i;
+ char pcal_date[BUFSIZ];
- fputs("\n# =============", stream);
- fputs("\n# Recur. Events", stream);
- fputs("\n# =============\n", stream);
- fputs("# (pcal does not support from..until dates specification\n", stream);
+ fputs("\n# =============", stream);
+ fputs("\n# Recur. Events", stream);
+ fputs("\n# =============\n", stream);
+ fputs("# (pcal does not support from..until dates specification\n",
+ stream);
- LLIST_FOREACH(&recur_elist, i) {
- struct recur_event *rev = LLIST_GET_DATA(i);
- if (rev->rpt->until == 0 && rev->rpt->freq == 1) {
- switch (rev->rpt->type) {
- case RECUR_DAILY:
- date_sec2date_fmt(rev->day, "%b %d", pcal_date);
- fprintf(stream, "all day on_or_after %s %s\n", pcal_date, rev->mesg);
- break;
- case RECUR_WEEKLY:
- date_sec2date_fmt(rev->day, "%a", pcal_date);
- fprintf(stream, "all %s on_or_after ", pcal_date);
- date_sec2date_fmt(rev->day, "%b %d", pcal_date);
- fprintf(stream, "%s %s\n", pcal_date, rev->mesg);
- break;
- case RECUR_MONTHLY:
- date_sec2date_fmt(rev->day, "%d", pcal_date);
- fprintf(stream, "day on all %s %s\n", pcal_date, rev->mesg);
- break;
- case RECUR_YEARLY:
- date_sec2date_fmt(rev->day, "%b %d", pcal_date);
- fprintf(stream, "%s %s\n", pcal_date, rev->mesg);
- break;
- default:
- EXIT(_("incoherent repetition type"));
- }
- } else {
- const long YEAR_START = ui_calendar_start_of_year();
- const long YEAR_END = ui_calendar_end_of_year();
+ LLIST_FOREACH(&recur_elist, i) {
+ struct recur_event *rev = LLIST_GET_DATA(i);
+ if (rev->rpt->until == 0 && rev->rpt->freq == 1) {
+ switch (rev->rpt->type) {
+ case RECUR_DAILY:
+ date_sec2date_fmt(rev->day, "%b %d",
+ pcal_date);
+ fprintf(stream,
+ "all day on_or_after %s %s\n",
+ pcal_date, rev->mesg);
+ break;
+ case RECUR_WEEKLY:
+ date_sec2date_fmt(rev->day, "%a",
+ pcal_date);
+ fprintf(stream, "all %s on_or_after ",
+ pcal_date);
+ date_sec2date_fmt(rev->day, "%b %d",
+ pcal_date);
+ fprintf(stream, "%s %s\n", pcal_date,
+ rev->mesg);
+ break;
+ case RECUR_MONTHLY:
+ date_sec2date_fmt(rev->day, "%d",
+ pcal_date);
+ fprintf(stream, "day on all %s %s\n",
+ pcal_date, rev->mesg);
+ break;
+ case RECUR_YEARLY:
+ date_sec2date_fmt(rev->day, "%b %d",
+ pcal_date);
+ fprintf(stream, "%s %s\n", pcal_date,
+ rev->mesg);
+ break;
+ default:
+ EXIT(_("incoherent repetition type"));
+ }
+ } else {
+ const long YEAR_START =
+ ui_calendar_start_of_year();
+ const long YEAR_END = ui_calendar_end_of_year();
- if (rev->day < YEAR_END && rev->day > YEAR_START)
- foreach_date_dump(YEAR_END, rev->rpt, &rev->exc, rev->day, 0,
- rev->mesg, (cb_dump_t) pcal_dump_event, stream);
- }
- }
+ if (rev->day < YEAR_END && rev->day > YEAR_START)
+ foreach_date_dump(YEAR_END, rev->rpt,
+ &rev->exc, rev->day, 0,
+ rev->mesg,
+ (cb_dump_t)
+ pcal_dump_event, stream);
+ }
+ }
}
static void pcal_export_events(FILE * stream)
{
- llist_item_t *i;
+ llist_item_t *i;
- fputs("\n# ======\n# Events\n# ======\n", stream);
- LLIST_FOREACH(&eventlist, i) {
- struct event *ev = LLIST_TS_GET_DATA(i);
- pcal_dump_event(stream, ev->day, 0, ev->mesg);
- }
- fputc('\n', stream);
+ fputs("\n# ======\n# Events\n# ======\n", stream);
+ LLIST_FOREACH(&eventlist, i) {
+ struct event *ev = LLIST_TS_GET_DATA(i);
+ pcal_dump_event(stream, ev->day, 0, ev->mesg);
+ }
+ fputc('\n', stream);
}
static void pcal_export_recur_apoints(FILE * stream)
{
- llist_item_t *i;
- char pcal_date[BUFSIZ], pcal_beg[BUFSIZ], pcal_end[BUFSIZ];
+ llist_item_t *i;
+ char pcal_date[BUFSIZ], pcal_beg[BUFSIZ], pcal_end[BUFSIZ];
- fputs("\n# ==============", stream);
- fputs("\n# Recur. Apoints", stream);
- fputs("\n# ==============\n", stream);
- fputs("# (pcal does not support from..until dates specification\n", stream);
+ fputs("\n# ==============", stream);
+ fputs("\n# Recur. Apoints", stream);
+ fputs("\n# ==============\n", stream);
+ fputs("# (pcal does not support from..until dates specification\n",
+ stream);
- LLIST_TS_FOREACH(&recur_alist_p, i) {
- struct recur_apoint *rapt = LLIST_TS_GET_DATA(i);
+ LLIST_TS_FOREACH(&recur_alist_p, i) {
+ struct recur_apoint *rapt = LLIST_TS_GET_DATA(i);
- if (rapt->rpt->until == 0 && rapt->rpt->freq == 1) {
- date_sec2date_fmt(rapt->start, "%R", pcal_beg);
- date_sec2date_fmt(rapt->start + rapt->dur, "%R", pcal_end);
- switch (rapt->rpt->type) {
- case RECUR_DAILY:
- date_sec2date_fmt(rapt->start, "%b %d", pcal_date);
- fprintf(stream, "all day on_or_after %s (%s -> %s) %s\n",
- pcal_date, pcal_beg, pcal_end, rapt->mesg);
- break;
- case RECUR_WEEKLY:
- date_sec2date_fmt(rapt->start, "%a", pcal_date);
- fprintf(stream, "all %s on_or_after ", pcal_date);
- date_sec2date_fmt(rapt->start, "%b %d", pcal_date);
- fprintf(stream, "%s (%s -> %s) %s\n", pcal_date, pcal_beg,
- pcal_end, rapt->mesg);
- break;
- case RECUR_MONTHLY:
- date_sec2date_fmt(rapt->start, "%d", pcal_date);
- fprintf(stream, "day on all %s (%s -> %s) %s\n", pcal_date,
- pcal_beg, pcal_end, rapt->mesg);
- break;
- case RECUR_YEARLY:
- date_sec2date_fmt(rapt->start, "%b %d", pcal_date);
- fprintf(stream, "%s (%s -> %s) %s\n", pcal_date, pcal_beg,
- pcal_end, rapt->mesg);
- break;
- default:
- EXIT(_("incoherent repetition type"));
- }
- } else {
- const long YEAR_START = ui_calendar_start_of_year();
- const long YEAR_END = ui_calendar_end_of_year();
+ if (rapt->rpt->until == 0 && rapt->rpt->freq == 1) {
+ date_sec2date_fmt(rapt->start, "%R", pcal_beg);
+ date_sec2date_fmt(rapt->start + rapt->dur, "%R",
+ pcal_end);
+ switch (rapt->rpt->type) {
+ case RECUR_DAILY:
+ date_sec2date_fmt(rapt->start, "%b %d",
+ pcal_date);
+ fprintf(stream,
+ "all day on_or_after %s (%s -> %s) %s\n",
+ pcal_date, pcal_beg, pcal_end,
+ rapt->mesg);
+ break;
+ case RECUR_WEEKLY:
+ date_sec2date_fmt(rapt->start, "%a",
+ pcal_date);
+ fprintf(stream, "all %s on_or_after ",
+ pcal_date);
+ date_sec2date_fmt(rapt->start, "%b %d",
+ pcal_date);
+ fprintf(stream, "%s (%s -> %s) %s\n",
+ pcal_date, pcal_beg, pcal_end,
+ rapt->mesg);
+ break;
+ case RECUR_MONTHLY:
+ date_sec2date_fmt(rapt->start, "%d",
+ pcal_date);
+ fprintf(stream,
+ "day on all %s (%s -> %s) %s\n",
+ pcal_date, pcal_beg, pcal_end,
+ rapt->mesg);
+ break;
+ case RECUR_YEARLY:
+ date_sec2date_fmt(rapt->start, "%b %d",
+ pcal_date);
+ fprintf(stream, "%s (%s -> %s) %s\n",
+ pcal_date, pcal_beg, pcal_end,
+ rapt->mesg);
+ break;
+ default:
+ EXIT(_("incoherent repetition type"));
+ }
+ } else {
+ const long YEAR_START =
+ ui_calendar_start_of_year();
+ const long YEAR_END = ui_calendar_end_of_year();
- if (rapt->start < YEAR_END && rapt->start > YEAR_START)
- foreach_date_dump(YEAR_END, rapt->rpt, &rapt->exc, rapt->start,
- rapt->dur, rapt->mesg,
- (cb_dump_t) pcal_dump_apoint, stream);
- }
- }
+ if (rapt->start < YEAR_END
+ && rapt->start > YEAR_START)
+ foreach_date_dump(YEAR_END, rapt->rpt,
+ &rapt->exc, rapt->start,
+ rapt->dur, rapt->mesg,
+ (cb_dump_t)
+ pcal_dump_apoint,
+ stream);
+ }
+ }
}
static void pcal_export_apoints(FILE * stream)
{
- llist_item_t *i;
+ llist_item_t *i;
- fputs("\n# ============\n# Appointments\n# ============\n", stream);
- LLIST_TS_LOCK(&alist_p);
- LLIST_TS_FOREACH(&alist_p, i) {
- struct apoint *apt = LLIST_TS_GET_DATA(i);
- pcal_dump_apoint(stream, apt->start, apt->dur, apt->mesg);
- }
- LLIST_TS_UNLOCK(&alist_p);
- fputc('\n', stream);
+ fputs("\n# ============\n# Appointments\n# ============\n",
+ stream);
+ LLIST_TS_LOCK(&alist_p);
+ LLIST_TS_FOREACH(&alist_p, i) {
+ struct apoint *apt = LLIST_TS_GET_DATA(i);
+ pcal_dump_apoint(stream, apt->start, apt->dur, apt->mesg);
+ }
+ LLIST_TS_UNLOCK(&alist_p);
+ fputc('\n', stream);
}
static void pcal_export_todo(FILE * stream)
{
- llist_item_t *i;
+ llist_item_t *i;
- fputs("#\n# Todos\n#\n", stream);
- LLIST_FOREACH(&todolist, i) {
- struct todo *todo = LLIST_TS_GET_DATA(i);
- if (todo->id < 0) /* completed items */
- continue;
+ fputs("#\n# Todos\n#\n", stream);
+ LLIST_FOREACH(&todolist, i) {
+ struct todo *todo = LLIST_TS_GET_DATA(i);
+ if (todo->id < 0) /* completed items */
+ continue;
- fputs("note all ", stream);
- fprintf(stream, "%d. %s\n", todo->id, todo->mesg);
- }
- fputc('\n', stream);
+ fputs("note all ", stream);
+ fprintf(stream, "%d. %s\n", todo->id, todo->mesg);
+ }
+ fputc('\n', stream);
}
/* Export calcurse data. */
void pcal_export_data(FILE * stream)
{
- pcal_export_header(stream);
- pcal_export_recur_events(stream);
- pcal_export_events(stream);
- pcal_export_recur_apoints(stream);
- pcal_export_apoints(stream);
- pcal_export_todo(stream);
- pcal_export_footer(stream);
+ pcal_export_header(stream);
+ pcal_export_recur_events(stream);
+ pcal_export_events(stream);
+ pcal_export_recur_apoints(stream);
+ pcal_export_apoints(stream);
+ pcal_export_todo(stream);
+ pcal_export_footer(stream);
}