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#include <stdio.h>
#include <ctype.h>
#include <string.h>
#include <stdlib.h>
#include <errno.h>
#include <time.h>
#include "dive.h"
#include "device.h"
static void show_milli(FILE *f, const char *pre, int value, const char *unit, const char *post)
{
int i;
char buf[4];
unsigned v;
fputs(pre, f);
v = value;
if (value < 0) {
putc('-', f);
v = -value;
}
for (i = 2; i >= 0; i--) {
buf[i] = (v % 10) + '0';
v /= 10;
}
buf[3] = 0;
if (buf[2] == '0') {
buf[2] = 0;
if (buf[1] == '0')
buf[1] = 0;
}
fprintf(f, "%u.%s%s%s", v, buf, unit, post);
}
static void show_temperature(FILE *f, temperature_t temp, const char *pre, const char *post)
{
if (temp.mkelvin)
show_milli(f, pre, temp.mkelvin - ZERO_C_IN_MKELVIN, " C", post);
}
static void show_depth(FILE *f, depth_t depth, const char *pre, const char *post)
{
if (depth.mm)
show_milli(f, pre, depth.mm, " m", post);
}
static void show_duration(FILE *f, duration_t duration, const char *pre, const char *post)
{
if (duration.seconds)
fprintf(f, "%s%u:%02u min%s", pre, FRACTION(duration.seconds, 60), post);
}
static void show_pressure(FILE *f, pressure_t pressure, const char *pre, const char *post)
{
if (pressure.mbar)
show_milli(f, pre, pressure.mbar, " bar", post);
}
static void show_salinity(FILE *f, int salinity, const char *pre, const char *post)
{
if (salinity)
fprintf(f, "%s%d g/l%s", pre, salinity / 10, post);
}
/*
* We're outputting utf8 in xml.
* We need to quote the characters <, >, &.
*
* Technically I don't think we'd necessarily need to quote the control
* characters, but at least libxml2 doesn't like them. It doesn't even
* allow them quoted. So we just skip them and replace them with '?'.
*
* If we do this for attributes, we need to quote the quotes we use too.
*/
static void quote(FILE *f, const char *text, int is_attribute)
{
const char *p = text;
for (;;) {
const char *escape;
switch (*p++) {
default:
continue;
case 0:
escape = NULL;
break;
case 1 ... 8:
case 11: case 12:
case 14 ... 31:
escape = "?";
break;
case '<':
escape = "<";
break;
case '>':
escape = ">";
break;
case '&':
escape = "&";
break;
case '\'':
if (!is_attribute)
continue;
escape = "'";
break;
case '\"':
if (!is_attribute)
continue;
escape = """;
break;
}
fwrite(text, (p - text - 1), 1, f);
if (!escape)
break;
fputs(escape, f);
text = p;
}
}
static void show_utf8(FILE *f, const char *text, const char *pre, const char *post, int is_attribute)
{
int len;
if (!text)
return;
while (isspace(*text))
text++;
len = strlen(text);
if (!len)
return;
while (len && isspace(text[len-1]))
len--;
/* FIXME! Quoting! */
fputs(pre, f);
quote(f, text, is_attribute);
fputs(post, f);
}
static void save_depths(FILE *f, struct divecomputer *dc)
{
/* What's the point of this dive entry again? */
if (!dc->maxdepth.mm && !dc->meandepth.mm)
return;
fputs(" <depth", f);
show_depth(f, dc->maxdepth, " max='", "'");
show_depth(f, dc->meandepth, " mean='", "'");
fputs(" />\n", f);
}
static void save_temperatures(FILE *f, struct divecomputer *dc)
{
if (!dc->airtemp.mkelvin && !dc->watertemp.mkelvin)
return;
fputs(" <temperature", f);
show_temperature(f, dc->airtemp, " air='", "'");
show_temperature(f, dc->watertemp, " water='", "'");
fputs(" />\n", f);
}
static void save_airpressure(FILE *f, struct divecomputer *dc)
{
if (!dc->surface_pressure.mbar)
return;
fputs(" <surface", f);
show_pressure(f, dc->surface_pressure, " pressure='", "'");
fputs(" />\n", f);
}
static void save_salinity(FILE *f, struct divecomputer *dc)
{
/* only save if we have a value that isn't the default of sea water */
if (!dc->salinity || dc->salinity == SEAWATER_SALINITY)
return;
fputs(" <water", f);
show_salinity(f, dc->salinity, " salinity='", "'");
fputs(" />\n", f);
}
/*
* Format degrees to within 6 decimal places. That's about 0.1m
* on a great circle (ie longitude at equator). And micro-degrees
* is also enough to fit in a fixed-point 32-bit integer.
*/
static int format_degrees(char *buffer, degrees_t value)
{
int udeg = value.udeg;
const char *sign = "";
if (udeg < 0) {
sign = "-";
udeg = -udeg;
}
return sprintf(buffer, "%s%u.%06u",
sign, udeg / 1000000, udeg % 1000000);
}
static int format_location(char *buffer, degrees_t latitude, degrees_t longitude)
{
int len = sprintf(buffer, "gps='");
len += format_degrees(buffer+len, latitude);
buffer[len++] = ' ';
len += format_degrees(buffer+len, longitude);
buffer[len++] = '\'';
return len;
}
static void show_location(FILE *f, struct dive *dive)
{
char buffer[80];
const char *prefix = " <location>";
degrees_t latitude = dive->latitude;
degrees_t longitude = dive->longitude;
/*
* Ok, theoretically I guess you could dive at
* exactly 0,0. But we don't support that. So
* if you do, just fudge it a bit, and say that
* you dove a few meters away.
*/
if (latitude.udeg || longitude.udeg) {
int len = sprintf(buffer, " <location ");
len += format_location(buffer+len, latitude, longitude);
if (!dive->location) {
memcpy(buffer+len, "/>\n", 4);
fputs(buffer, f);
return;
}
buffer[len++] = '>';
buffer[len] = 0;
prefix = buffer;
}
show_utf8(f, dive->location, prefix,"</location>\n", 0);
}
static void save_overview(FILE *f, struct dive *dive)
{
show_location(f, dive);
show_utf8(f, dive->divemaster, " <divemaster>","</divemaster>\n", 0);
show_utf8(f, dive->buddy, " <buddy>","</buddy>\n", 0);
show_utf8(f, dive->notes, " <notes>","</notes>\n", 0);
show_utf8(f, dive->suit, " <suit>","</suit>\n", 0);
}
static int nr_cylinders(struct dive *dive)
{
int nr;
for (nr = MAX_CYLINDERS; nr; --nr) {
cylinder_t *cylinder = dive->cylinder+nr-1;
if (!cylinder_nodata(cylinder))
break;
}
return nr;
}
static void save_cylinder_info(FILE *f, struct dive *dive)
{
int i, nr;
nr = nr_cylinders(dive);
for (i = 0; i < nr; i++) {
cylinder_t *cylinder = dive->cylinder+i;
int volume = cylinder->type.size.mliter;
const char *description = cylinder->type.description;
int o2 = cylinder->gasmix.o2.permille;
int he = cylinder->gasmix.he.permille;
fprintf(f, " <cylinder");
if (volume)
show_milli(f, " size='", volume, " l", "'");
show_pressure(f, cylinder->type.workingpressure, " workpressure='", "'");
if (description && *description)
fprintf(f, " description='%s'", description);
if (o2) {
fprintf(f, " o2='%u.%u%%'", FRACTION(o2, 10));
if (he)
fprintf(f, " he='%u.%u%%'", FRACTION(he, 10));
}
show_pressure(f, cylinder->start, " start='", "'");
show_pressure(f, cylinder->end, " end='", "'");
fprintf(f, " />\n");
}
}
static void save_weightsystem_info(FILE *f, struct dive *dive)
{
int i;
for (i = 0; i < MAX_WEIGHTSYSTEMS; i++) {
weightsystem_t *ws = dive->weightsystem+i;
int grams = ws->weight.grams;
const char *description = ws->description;
/* No weight information at all? */
if (grams == 0)
return;
fprintf(f, " <weightsystem");
show_milli(f, " weight='", grams, " kg", "'");
if (description && *description)
fprintf(f, " description='%s'", description);
fprintf(f, " />\n");
}
}
static void show_index(FILE *f, int value, const char *pre, const char *post)
{
if (value)
fprintf(f, " %s%d%s", pre, value, post);
}
static void save_sample(FILE *f, struct sample *sample, struct sample *old)
{
fprintf(f, " <sample time='%u:%02u min'", FRACTION(sample->time.seconds,60));
show_milli(f, " depth='", sample->depth.mm, " m", "'");
show_temperature(f, sample->temperature, " temp='", "'");
show_pressure(f, sample->cylinderpressure, " pressure='", "'");
/*
* We only show sensor information for samples with pressure, and only if it
* changed from the previous sensor we showed.
*/
if (sample->cylinderpressure.mbar && sample->sensor != old->sensor) {
fprintf(f, " sensor='%d'", sample->sensor);
old->sensor = sample->sensor;
}
/* the deco/ndl values are stored whenever they change */
if (sample->ndl.seconds != old->ndl.seconds) {
fprintf(f, " ndl='%u:%02u min'", FRACTION(sample->ndl.seconds, 60));
old->ndl = sample->ndl;
}
if (sample->in_deco != old->in_deco) {
fprintf(f, " in_deco='%d'", sample->in_deco ? 1 : 0);
old->in_deco = sample->in_deco;
}
if (sample->stoptime.seconds != old->stoptime.seconds) {
fprintf(f, " stoptime='%u:%02u min'", FRACTION(sample->stoptime.seconds, 60));
old->stoptime = sample->stoptime;
}
if (sample->stopdepth.mm != old->stopdepth.mm) {
show_milli(f, " stopdepth='", sample->stopdepth.mm, " m", "'");
old->stopdepth = sample->stopdepth;
}
if (sample->cns != old->cns) {
fprintf(f, " cns='%u%%'", sample->cns);
old->cns = sample->cns;
}
if (sample->po2 != old->po2) {
fprintf(f, " po2='%u.%2u bar'", FRACTION(sample->po2, 1000));
old->po2 = sample->po2;
}
fprintf(f, " />\n");
}
static void save_one_event(FILE *f, struct event *ev)
{
fprintf(f, " <event time='%d:%02d min'", FRACTION(ev->time.seconds,60));
show_index(f, ev->type, "type='", "'");
show_index(f, ev->flags, "flags='", "'");
show_index(f, ev->value, "value='", "'");
show_utf8(f, ev->name, " name='", "'", 1);
fprintf(f, " />\n");
}
static void save_events(FILE *f, struct event *ev)
{
while (ev) {
save_one_event(f, ev);
ev = ev->next;
}
}
static void show_date(FILE *f, timestamp_t when)
{
struct tm tm;
utc_mkdate(when, &tm);
fprintf(f, " date='%04u-%02u-%02u'",
tm.tm_year+1900, tm.tm_mon+1, tm.tm_mday);
fprintf(f, " time='%02u:%02u:%02u'",
tm.tm_hour, tm.tm_min, tm.tm_sec);
}
static void save_samples(FILE *f, int nr, struct sample *s)
{
struct sample dummy = { };
while (--nr >= 0) {
save_sample(f, s, &dummy);
s++;
}
}
static void save_dc(FILE *f, struct dive *dive, struct divecomputer *dc)
{
fprintf(f, " <divecomputer");
if (dc->model)
show_utf8(f, dc->model, " model='", "'", 1);
if (dc->deviceid)
fprintf(f, " deviceid='%08x'", dc->deviceid);
if (dc->diveid)
fprintf(f, " diveid='%08x'", dc->diveid);
if (dc->when && dc->when != dive->when)
show_date(f, dc->when);
if (dc->duration.seconds && dc->duration.seconds != dive->dc.duration.seconds)
show_duration(f, dc->duration, " duration='", "'");
fprintf(f, ">\n");
save_depths(f, dc);
save_temperatures(f, dc);
save_airpressure(f, dc);
save_salinity(f, dc);
show_duration(f, dc->surfacetime, " <surfacetime>", "</surfacetime>\n");
save_events(f, dc->events);
save_samples(f, dc->samples, dc->sample);
fprintf(f, " </divecomputer>\n");
}
void save_dive(FILE *f, struct dive *dive)
{
struct divecomputer *dc;
fputs("<dive", f);
if (dive->number)
fprintf(f, " number='%d'", dive->number);
if (dive->tripflag == NO_TRIP)
fprintf(f, " tripflag='NOTRIP'");
if (dive->rating)
fprintf(f, " rating='%d'", dive->rating);
if (dive->visibility)
fprintf(f, " visibility='%d'", dive->visibility);
show_date(f, dive->when);
fprintf(f, " duration='%u:%02u min'>\n",
FRACTION(dive->dc.duration.seconds, 60));
save_overview(f, dive);
save_cylinder_info(f, dive);
save_weightsystem_info(f, dive);
/* Save the dive computer data */
dc = &dive->dc;
do {
save_dc(f, dive, dc);
dc = dc->next;
} while (dc);
fprintf(f, "</dive>\n");
}
static void save_trip(FILE *f, dive_trip_t *trip)
{
int i;
struct dive *dive;
fprintf(f, "<trip");
show_date(f, trip->when);
if (trip->location)
show_utf8(f, trip->location, " location=\'","\'", 1);
fprintf(f, ">\n");
if (trip->notes)
show_utf8(f, trip->notes, "<notes>","</notes>\n", 0);
/*
* Incredibly cheesy: we want to save the dives sorted, and they
* are sorted in the dive array.. So instead of using the dive
* list in the trip, we just traverse the global dive array and
* check the divetrip pointer..
*/
for_each_dive(i, dive) {
if (dive->divetrip == trip)
save_dive(f, dive);
}
fprintf(f, "</trip>\n");
}
static void save_one_device(FILE *f, struct device_info *info)
{
const char *nickname, *serial_nr, *firmware;
/* Nicknames that are empty or the same as the device model are not interesting */
nickname = info->nickname;
if (nickname) {
if (!*nickname || !strcmp(info->model, nickname))
nickname = NULL;
}
/* Serial numbers that are empty are not interesting */
serial_nr = info->serial_nr;
if (serial_nr && !*serial_nr)
serial_nr = NULL;
/* Firmware strings that are empty are not interesting */
firmware = info->firmware;
if (firmware && !*firmware)
firmware = NULL;
/* Do we have anything interesting about this dive computer to save? */
if (!serial_nr && !nickname && !firmware)
return;
fprintf(f, "<divecomputerid model='%s' deviceid='%08x'", info->model, info->deviceid);
if (serial_nr)
show_utf8(f, serial_nr, " serial='", "'", 1);
if (firmware)
show_utf8(f, firmware, " firmware='", "'", 1);
if (nickname)
show_utf8(f, nickname, " nickname='", "'", 1);
fprintf(f, "/>\n");
}
static void save_device_info(FILE *f)
{
struct device_info *info;
info = head_of_device_info_list();
while (info) {
save_one_device(f, info);
info = info->next;
}
}
#define VERSION 2
void save_dives(const char *filename)
{
save_dives_logic(filename, FALSE);
}
void save_dives_logic(const char *filename, const gboolean select_only)
{
int i;
struct dive *dive;
dive_trip_t *trip;
FILE *f = g_fopen(filename, "w");
if (!f)
return;
/* Flush any edits of current dives back to the dives! */
update_dive(current_dive);
fprintf(f, "<divelog program='subsurface' version='%d'>\n<settings>\n", VERSION);
/* save the dive computer nicknames, if any */
save_device_info(f);
if (autogroup)
fprintf(f, "<autogroup state='1' />\n");
fprintf(f, "</settings>\n<dives>\n");
for (trip = dive_trip_list; trip != NULL; trip = trip->next)
trip->index = 0;
/* save the dives */
for_each_dive(i, dive) {
if (select_only) {
if(!dive->selected)
continue;
save_dive(f, dive);
} else {
trip = dive->divetrip;
/* Bare dive without a trip? */
if (!trip) {
save_dive(f, dive);
continue;
}
/* Have we already seen this trip (and thus saved this dive?) */
if (trip->index)
continue;
/* We haven't seen this trip before - save it and all dives */
trip->index = 1;
save_trip(f, trip);
}
}
fprintf(f, "</dives>\n</divelog>\n");
fclose(f);
}
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