subsurface/core/save-xml.cpp
Berthold Stoeger d81ca005ab core: move *_surface_pressure() functions into struct dive
Seems natural in a C++ code base.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2024-08-13 19:28:30 +02:00

902 lines
26 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#ifdef __clang__
// Clang has a bug on zero-initialization of C structs.
#pragma clang diagnostic ignored "-Wmissing-field-initializers"
#endif
#include <stdio.h>
#include <ctype.h>
#include <string.h>
#include <stdlib.h>
#include <errno.h>
#include <unistd.h>
#include <fcntl.h>
#include "dive.h"
#include "divelog.h"
#include "divesite.h"
#include "errorhelper.h"
#include "extradata.h"
#include "filterconstraint.h"
#include "filterpreset.h"
#include "sample.h"
#include "subsurface-string.h"
#include "subsurface-time.h"
#include "trip.h"
#include "device.h"
#include "event.h"
#include "file.h"
#include "membuffer.h"
#include "picture.h"
#include "git-access.h"
#include "qthelper.h"
#include "gettext.h"
#include "tag.h"
#include "xmlparams.h"
/*
* 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(struct membuffer *b, const char *text, int is_attribute)
{
int is_html = 0;
put_quoted(b, text, is_attribute, is_html);
}
static void show_utf8(struct membuffer *b, const char *text, const char *pre, const char *post, int is_attribute)
{
int len;
if (!text)
return;
/* remove leading and trailing space */
/* We need to combine isascii() with isspace(),
* because we can only trust isspace() with 7-bit ascii,
* on windows for example */
while (isascii(*text) && isspace(*text))
text++;
len = strlen(text);
if (!len)
return;
while (len && isascii(text[len - 1]) && isspace(text[len - 1]))
len--;
std::string cleaned(text, len);
put_string(b, pre);
quote(b, cleaned.c_str(), is_attribute);
put_string(b, post);
}
static void blankout(std::string &s)
{
for(char &c: s) {
switch (c) {
case 'A'...'Z':
c = 'X';
break;
case 'a'...'z':
c = 'x';
break;
default:
;
}
}
}
static void show_utf8_blanked(struct membuffer *b, const char *text, const char *pre, const char *post, int is_attribute, bool anonymize)
{
if (!text)
return;
std::string copy(text);
if (anonymize)
blankout(copy);
show_utf8(b, copy.c_str(), pre, post, is_attribute);
}
static void save_depths(struct membuffer *b, const struct divecomputer &dc)
{
/* What's the point of this dive entry again? */
if (!dc.maxdepth.mm && !dc.meandepth.mm)
return;
put_string(b, " <depth");
put_depth(b, dc.maxdepth, " max='", " m'");
put_depth(b, dc.meandepth, " mean='", " m'");
put_string(b, " />\n");
}
static void save_dive_temperature(struct membuffer *b, const struct dive &dive)
{
if (!dive.airtemp.mkelvin && !dive.watertemp.mkelvin)
return;
if (dive.airtemp.mkelvin == dive.dc_airtemp().mkelvin && dive.watertemp.mkelvin == dive.dc_watertemp().mkelvin)
return;
put_string(b, " <divetemperature");
if (dive.airtemp.mkelvin != dive.dc_airtemp().mkelvin)
put_temperature(b, dive.airtemp, " air='", " C'");
if (dive.watertemp.mkelvin != dive.dc_watertemp().mkelvin)
put_temperature(b, dive.watertemp, " water='", " C'");
put_string(b, "/>\n");
}
static void save_temperatures(struct membuffer *b, const struct divecomputer &dc)
{
if (!dc.airtemp.mkelvin && !dc.watertemp.mkelvin)
return;
put_string(b, " <temperature");
put_temperature(b, dc.airtemp, " air='", " C'");
put_temperature(b, dc.watertemp, " water='", " C'");
put_string(b, " />\n");
}
static void save_airpressure(struct membuffer *b, const struct divecomputer &dc)
{
if (!dc.surface_pressure.mbar)
return;
put_string(b, " <surface");
put_pressure(b, dc.surface_pressure, " pressure='", " bar'");
put_string(b, " />\n");
}
static void save_salinity(struct membuffer *b, const struct divecomputer &dc)
{
if (!dc.salinity)
return;
put_string(b, " <water");
put_salinity(b, dc.salinity, " salinity='", " g/l'");
put_string(b, " />\n");
}
static void save_overview(struct membuffer *b, const struct dive &dive, bool anonymize)
{
show_utf8_blanked(b, dive.diveguide.c_str(), " <divemaster>", "</divemaster>\n", 0, anonymize);
show_utf8_blanked(b, dive.buddy.c_str(), " <buddy>", "</buddy>\n", 0, anonymize);
show_utf8_blanked(b, dive.notes.c_str(), " <notes>", "</notes>\n", 0, anonymize);
show_utf8_blanked(b, dive.suit.c_str(), " <suit>", "</suit>\n", 0, anonymize);
}
static void put_gasmix(struct membuffer *b, struct gasmix mix)
{
int o2 = mix.o2.permille;
int he = mix.he.permille;
if (o2) {
put_format(b, " o2='%u.%u%%'", FRACTION_TUPLE(o2, 10));
if (he)
put_format(b, " he='%u.%u%%'", FRACTION_TUPLE(he, 10));
}
}
static void save_cylinder_info(struct membuffer *b, const struct dive &dive)
{
for (auto &cyl: dive.cylinders) {
int volume = cyl.type.size.mliter;
int use = cyl.cylinder_use;
put_format(b, " <cylinder");
if (volume)
put_milli(b, " size='", volume, " l'");
put_pressure(b, cyl.type.workingpressure, " workpressure='", " bar'");
show_utf8(b, cyl.type.description.c_str(), " description='", "'", 1);
put_gasmix(b, cyl.gasmix);
put_pressure(b, cyl.start, " start='", " bar'");
put_pressure(b, cyl.end, " end='", " bar'");
if (use > OC_GAS && use < NUM_GAS_USE)
show_utf8(b, cylinderuse_text[use], " use='", "'", 1);
if (cyl.depth.mm != 0)
put_milli(b, " depth='", cyl.depth.mm, " m'");
put_format(b, " />\n");
}
}
static void save_weightsystem_info(struct membuffer *b, const struct dive &dive)
{
for (auto &ws: dive.weightsystems) {
int grams = ws.weight.grams;
put_format(b, " <weightsystem");
put_milli(b, " weight='", grams, " kg'");
show_utf8(b, ws.description.c_str(), " description='", "'", 1);
put_format(b, " />\n");
}
}
static void show_integer(struct membuffer *b, int value, const char *pre, const char *post)
{
put_format(b, " %s%d%s", pre, value, post);
}
static void show_index(struct membuffer *b, int value, const char *pre, const char *post)
{
if (value)
show_integer(b, value, pre, post);
}
static void save_sample(struct membuffer *b, const struct sample &sample, struct sample &old, int o2sensor)
{
int idx;
put_format(b, " <sample time='%u:%02u min'", FRACTION_TUPLE(sample.time.seconds, 60));
put_milli(b, " depth='", sample.depth.mm, " m'");
if (sample.temperature.mkelvin && sample.temperature.mkelvin != old.temperature.mkelvin) {
put_temperature(b, sample.temperature, " temp='", " C'");
old.temperature = sample.temperature;
}
/*
* We only show sensor information for samples with pressure, and only if it
* changed from the previous sensor we showed.
*/
for (idx = 0; idx < MAX_SENSORS; idx++) {
pressure_t p = sample.pressure[idx];
int sensor = sample.sensor[idx];
if (sensor == NO_SENSOR)
continue;
if (!p.mbar)
continue;
/* Legacy o2pressure format? */
if (o2sensor >= 0) {
if (sensor == o2sensor) {
put_pressure(b, p, " o2pressure='", " bar'");
continue;
}
put_pressure(b, p, " pressure='", " bar'");
if (sensor != old.sensor[0]) {
put_format(b, " sensor='%d'", sensor);
old.sensor[0] = sensor;
}
continue;
}
/* The new-style format is much simpler: the sensor is always encoded */
put_format(b, " pressure%d=", sensor);
put_pressure(b, p, "'", " bar'");
}
/* the deco/ndl values are stored whenever they change */
if (sample.ndl.seconds != old.ndl.seconds) {
put_format(b, " ndl='%u:%02u min'", FRACTION_TUPLE(sample.ndl.seconds, 60));
old.ndl = sample.ndl;
}
if (sample.tts.seconds != old.tts.seconds) {
put_format(b, " tts='%u:%02u min'", FRACTION_TUPLE(sample.tts.seconds, 60));
old.tts = sample.tts;
}
if (sample.rbt.seconds != old.rbt.seconds) {
put_format(b, " rbt='%u:%02u min'", FRACTION_TUPLE(sample.rbt.seconds, 60));
old.rbt = sample.rbt;
}
if (sample.in_deco != old.in_deco) {
put_format(b, " in_deco='%d'", sample.in_deco ? 1 : 0);
old.in_deco = sample.in_deco;
}
if (sample.stoptime.seconds != old.stoptime.seconds) {
put_format(b, " stoptime='%u:%02u min'", FRACTION_TUPLE(sample.stoptime.seconds, 60));
old.stoptime = sample.stoptime;
}
if (sample.stopdepth.mm != old.stopdepth.mm) {
put_milli(b, " stopdepth='", sample.stopdepth.mm, " m'");
old.stopdepth = sample.stopdepth;
}
if (sample.cns != old.cns) {
put_format(b, " cns='%u%%'", sample.cns);
old.cns = sample.cns;
}
if ((sample.o2sensor[0].mbar) && (sample.o2sensor[0].mbar != old.o2sensor[0].mbar)) {
put_milli(b, " sensor1='", sample.o2sensor[0].mbar, " bar'");
old.o2sensor[0] = sample.o2sensor[0];
}
if ((sample.o2sensor[1].mbar) && (sample.o2sensor[1].mbar != old.o2sensor[1].mbar)) {
put_milli(b, " sensor2='", sample.o2sensor[1].mbar, " bar'");
old.o2sensor[1] = sample.o2sensor[1];
}
if ((sample.o2sensor[2].mbar) && (sample.o2sensor[2].mbar != old.o2sensor[2].mbar)) {
put_milli(b, " sensor3='", sample.o2sensor[2].mbar, " bar'");
old.o2sensor[2] = sample.o2sensor[2];
}
if ((sample.o2sensor[3].mbar) && (sample.o2sensor[3].mbar != old.o2sensor[3].mbar)) {
put_milli(b, " sensor4='", sample.o2sensor[3].mbar, " bar'");
old.o2sensor[3] = sample.o2sensor[3];
}
if ((sample.o2sensor[4].mbar) && (sample.o2sensor[4].mbar != old.o2sensor[4].mbar)) {
put_milli(b, " sensor5='", sample.o2sensor[4].mbar, " bar'");
old.o2sensor[4] = sample.o2sensor[4];
}
if ((sample.o2sensor[5].mbar) && (sample.o2sensor[5].mbar != old.o2sensor[5].mbar)) {
put_milli(b, " sensor6='", sample.o2sensor[5].mbar, " bar'");
old.o2sensor[5] = sample.o2sensor[5];
}
if (sample.setpoint.mbar != old.setpoint.mbar) {
put_milli(b, " po2='", sample.setpoint.mbar, " bar'");
old.setpoint = sample.setpoint;
}
if (sample.heartbeat != old.heartbeat) {
show_index(b, sample.heartbeat, "heartbeat='", "'");
old.heartbeat = sample.heartbeat;
}
if (sample.bearing.degrees != old.bearing.degrees) {
show_index(b, sample.bearing.degrees, "bearing='", "'");
old.bearing.degrees = sample.bearing.degrees;
}
put_format(b, " />\n");
}
static void save_one_event(struct membuffer *b, const struct dive &dive, const struct event &ev)
{
put_format(b, " <event time='%d:%02d min'", FRACTION_TUPLE(ev.time.seconds, 60));
show_index(b, ev.type, "type='", "'");
show_index(b, ev.flags, "flags='", "'");
if (ev.name == "modechange")
show_utf8(b, divemode_text[ev.value], " divemode='", "'",1);
else
show_index(b, ev.value, "value='", "'");
show_utf8(b, ev.name.c_str(), " name='", "'", 1);
if (ev.is_gaschange()) {
struct gasmix mix = get_gasmix_from_event(&dive, ev);
if (ev.gas.index >= 0)
show_integer(b, ev.gas.index, "cylinder='", "'");
put_gasmix(b, mix);
}
put_format(b, " />\n");
}
static void save_events(struct membuffer *b, const struct dive &dive, const struct divecomputer &dc)
{
for (auto &ev: dc.events)
save_one_event(b, dive, ev);
}
static void save_tags(struct membuffer *b, const tag_list &tags)
{
if (!tags.empty()) {
const char *sep = " tags='";
for (const divetag *tag: tags) {
put_string(b, sep);
/* If the tag has been translated, write the source to the xml file */
quote(b, tag->source.empty() ? tag->name.c_str() : tag->source.c_str(), 1);
sep = ", ";
}
put_string(b, "'");
}
}
static void save_extra_data(struct membuffer *b, const struct divecomputer &dc)
{
for (const auto &ed: dc.extra_data) {
if (!ed.key.empty() && !ed.value.empty()) {
put_string(b, " <extradata");
show_utf8(b, ed.key.c_str(), " key='", "'", 1);
show_utf8(b, ed.value.c_str(), " value='", "'", 1);
put_string(b, " />\n");
}
}
}
static void show_date(struct membuffer *b, timestamp_t when)
{
struct tm tm;
utc_mkdate(when, &tm);
put_format(b, " date='%04u-%02u-%02u'",
tm.tm_year, tm.tm_mon + 1, tm.tm_mday);
if (tm.tm_hour || tm.tm_min || tm.tm_sec)
put_format(b, " time='%02u:%02u:%02u'",
tm.tm_hour, tm.tm_min, tm.tm_sec);
}
static void save_samples(struct membuffer *b, const struct dive &dive, const struct divecomputer &dc)
{
struct sample dummy;
/* Set up default pressure sensor indices */
int o2sensor = legacy_format_o2pressures(&dive, &dc);
if (o2sensor >= 0) {
dummy.sensor[0] = !o2sensor;
dummy.sensor[1] = o2sensor;
}
for (const auto &s: dc.samples)
save_sample(b, s, dummy, o2sensor);
}
static void save_dc(struct membuffer *b, const struct dive &dive, const struct divecomputer &dc)
{
put_format(b, " <divecomputer");
show_utf8(b, dc.model.c_str(), " model='", "'", 1);
if (dc.last_manual_time.seconds)
put_duration(b, dc.last_manual_time, " last-manual-time='", " min'");
if (dc.deviceid)
put_format(b, " deviceid='%08x'", dc.deviceid);
if (dc.diveid)
put_format(b, " diveid='%08x'", dc.diveid);
if (dc.when && dc.when != dive.when)
show_date(b, dc.when);
if (dc.duration.seconds && dc.duration.seconds != dive.dcs[0].duration.seconds)
put_duration(b, dc.duration, " duration='", " min'");
if (dc.divemode != OC) {
int i = (int)dc.divemode;
if (i >= 0 && i < NUM_DIVEMODE)
show_utf8(b, divemode_text[i], " dctype='", "'", 1);
if (dc.no_o2sensors)
put_format(b," no_o2sensors='%d'", dc.no_o2sensors);
}
put_format(b, ">\n");
save_depths(b, dc);
save_temperatures(b, dc);
save_airpressure(b, dc);
save_salinity(b, dc);
put_duration(b, dc.surfacetime, " <surfacetime>", " min</surfacetime>\n");
save_extra_data(b, dc);
save_events(b, dive, dc);
save_samples(b, dive, dc);
put_format(b, " </divecomputer>\n");
}
static void save_picture(struct membuffer *b, const struct picture &pic)
{
put_string(b, " <picture filename='");
put_quoted(b, pic.filename.c_str(), true, false);
put_string(b, "'");
if (pic.offset.seconds) {
int offset = pic.offset.seconds;
char sign = '+';
if (offset < 0) {
sign = '-';
offset = -offset;
}
put_format(b, " offset='%c%u:%02u min'", sign, FRACTION_TUPLE(offset, 60));
}
put_location(b, &pic.location, " gps='","'");
put_string(b, "/>\n");
}
void save_one_dive_to_mb(struct membuffer *b, const struct dive &dive, bool anonymize)
{
pressure_t surface_pressure = dive.un_fixup_surface_pressure();
put_string(b, "<dive");
if (dive.number)
put_format(b, " number='%d'", dive.number);
if (dive.notrip)
put_format(b, " tripflag='NOTRIP'");
if (dive.rating)
put_format(b, " rating='%d'", dive.rating);
if (dive.visibility)
put_format(b, " visibility='%d'", dive.visibility);
if (dive.wavesize)
put_format(b, " wavesize='%d'", dive.wavesize);
if (dive.current)
put_format(b, " current='%d'", dive.current);
if (dive.surge)
put_format(b, " surge='%d'", dive.surge);
if (dive.chill)
put_format(b, " chill='%d'", dive.chill);
if (dive.invalid)
put_format(b, " invalid='1'");
// These three are calculated, and not read when loading.
// But saving them into the XML is useful for data export.
if (dive.sac > 100)
put_format(b, " sac='%d.%03d l/min'", FRACTION_TUPLE(dive.sac, 1000));
if (dive.otu)
put_format(b, " otu='%d'", dive.otu);
if (dive.maxcns)
put_format(b, " cns='%d%%'", dive.maxcns);
save_tags(b, dive.tags);
if (dive.dive_site)
put_format(b, " divesiteid='%8x'", dive.dive_site->uuid);
if (dive.user_salinity)
put_salinity(b, dive.user_salinity, " watersalinity='", " g/l'");
show_date(b, dive.when);
if (surface_pressure.mbar)
put_pressure(b, surface_pressure, " airpressure='", " bar'");
if (dive.dcs[0].duration.seconds > 0)
put_format(b, " duration='%u:%02u min'>\n",
FRACTION_TUPLE(dive.dcs[0].duration.seconds, 60));
else
put_format(b, ">\n");
save_overview(b, dive, anonymize);
save_cylinder_info(b, dive);
save_weightsystem_info(b, dive);
save_dive_temperature(b, dive);
/* Save the dive computer data */
for (auto &dc: dive.dcs)
save_dc(b, dive, dc);
for (auto &picture: dive.pictures)
save_picture(b, picture);
put_format(b, "</dive>\n");
}
int save_dive(FILE *f, const struct dive &dive, bool anonymize)
{
membuffer buf;
save_one_dive_to_mb(&buf, dive, anonymize);
flush_buffer(&buf, f);
/* Error handling? */
return 0;
}
static void save_trip(struct membuffer *b, dive_trip &trip, bool anonymize)
{
put_format(b, "<trip");
show_date(b, trip.date());
show_utf8(b, trip.location.c_str(), " location=\'", "\'", 1);
put_format(b, ">\n");
show_utf8(b, trip.notes.c_str(), "<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 (auto &dive: divelog.dives) {
if (dive->divetrip == &trip)
save_one_dive_to_mb(b, *dive, anonymize);
}
put_format(b, "</trip>\n");
}
static void save_one_device(struct membuffer *b, const struct device &d)
{
/* Nicknames that are empty or the same as the device model are not interesting */
if (d.nickName.empty() || d.serialNumber.empty() || d.model == d.nickName)
return;
put_format(b, "<divecomputerid");
show_utf8(b, d.model.c_str(), " model='", "'", 1);
put_format(b, " deviceid='%08x'", calculate_string_hash(d.serialNumber.c_str()));
show_utf8(b, d.serialNumber.c_str(), " serial='", "'", 1);
show_utf8(b, d.nickName.c_str(), " nickname='", "'", 1);
put_format(b, "/>\n");
}
static void save_one_fingerprint(struct membuffer *b, const fingerprint_record &fp)
{
put_format(b, "<fingerprint model='%08x' serial='%08x' deviceid='%08x' diveid='%08x' data='%s'/>\n",
fp.model, fp.serial, fp.fdeviceid, fp.fdiveid, fp.get_data().c_str());
}
int save_dives(const char *filename)
{
return save_dives_logic(filename, false, false);
}
static void save_filter_presets(struct membuffer *b)
{
if (divelog.filter_presets.empty())
return;
put_format(b, "<filterpresets>\n");
for (auto &filter_preset: divelog.filter_presets) {
put_format(b, " <filterpreset");
show_utf8(b, filter_preset.name.c_str(), " name='", "'", 1);
put_format(b, ">\n");
std::string fulltext = filter_preset.fulltext_query();
if (!fulltext.empty()) {
const char *fulltext_mode = filter_preset.fulltext_mode();
show_utf8(b, fulltext_mode, " <fulltext mode='", "'>", 1);
show_utf8(b, fulltext.c_str(), "", "</fulltext>\n", 0);
}
for (auto &constraint: filter_preset.data.constraints) {
const char *type = filter_constraint_type_to_string(constraint.type);
put_format(b, " <constraint");
show_utf8(b, type, " type='", "'", 1);
if (filter_constraint_has_string_mode(constraint.type)) {
const char *mode = filter_constraint_string_mode_to_string(constraint.string_mode);
show_utf8(b, mode, " string_mode='", "'", 1);
}
if (filter_constraint_has_range_mode(constraint.type)) {
const char *mode = filter_constraint_range_mode_to_string(constraint.range_mode);
show_utf8(b, mode, " range_mode='", "'", 1);
}
if (constraint.negate)
put_format(b, " negate='1'");
put_format(b, ">");
std::string data = filter_constraint_data_to_string(constraint);
show_utf8(b, data.c_str(), "", "", 0);
put_format(b, "</constraint>\n");
}
put_format(b, " </filterpreset>\n");
}
put_format(b, "</filterpresets>\n");
}
static void save_dives_buffer(struct membuffer *b, bool select_only, bool anonymize)
{
put_format(b, "<divelog program='subsurface' version='%d'>\n<settings>\n", DATAFORMAT_VERSION);
/* save the dive computer nicknames, if any */
for (auto &d: divelog.devices) {
if (!select_only || device_used_by_selected_dive(d))
save_one_device(b, d);
}
/* save the fingerprint data */
for (auto &fp: fingerprints)
save_one_fingerprint(b, fp);
if (divelog.autogroup)
put_format(b, " <autogroup state='1' />\n");
put_format(b, "</settings>\n");
/* save the dive sites */
put_format(b, "<divesites>\n");
for (const auto &ds: divelog.sites) {
/* Don't export empty dive sites */
if (ds->is_empty())
continue;
/* Only write used dive sites when exporting selected dives */
if (select_only && !ds->is_selected())
continue;
put_format(b, "<site uuid='%8x'", ds->uuid);
show_utf8_blanked(b, ds->name.c_str(), " name='", "'", 1, anonymize);
put_location(b, &ds->location, " gps='", "'");
show_utf8_blanked(b, ds->description.c_str(), " description='", "'", 1, anonymize);
put_format(b, ">\n");
show_utf8_blanked(b, ds->notes.c_str(), " <notes>", " </notes>\n", 0, anonymize);
for (auto const &t: ds->taxonomy) {
if (t.category != TC_NONE && !t.value.empty()) {
put_format(b, " <geo cat='%d'", t.category);
put_format(b, " origin='%d'", t.origin);
show_utf8_blanked(b, t.value.c_str(), " value='", "'", 1, anonymize);
put_format(b, "/>\n");
}
}
put_format(b, "</site>\n");
}
put_format(b, "</divesites>\n<dives>\n");
for (auto &trip: divelog.trips)
trip->saved = 0;
/* save the filter presets */
save_filter_presets(b);
/* save the dives */
for (auto &dive: divelog.dives) {
if (select_only) {
if (!dive->selected)
continue;
save_one_dive_to_mb(b, *dive, anonymize);
} else {
dive_trip *trip = dive->divetrip;
/* Bare dive without a trip? */
if (!trip) {
save_one_dive_to_mb(b, *dive, anonymize);
continue;
}
/* Have we already seen this trip (and thus saved this dive?) */
if (trip->saved)
continue;
/* We haven't seen this trip before - save it and all dives */
trip->saved = 1;
save_trip(b, *trip, anonymize);
}
}
put_format(b, "</dives>\n</divelog>\n");
}
static void save_backup(const char *name, const char *ext, const char *new_ext)
{
int len = strlen(name);
int a = strlen(ext);
/* len up to and including the final '.' */
len -= a;
if (len <= 1)
return;
if (name[len - 1] != '.')
return;
/* msvc doesn't have strncasecmp, has _strnicmp instead - crazy */
if (strncasecmp(name + len, ext, a))
return;
std::string newname(name, len);
newname += new_ext;
/*
* Ignore errors. Maybe we can't create the backup file,
* maybe no old file existed. Regardless, we'll write the
* new file.
*/
(void) subsurface_rename(name, newname.c_str());
}
static void try_to_backup(const char *filename)
{
char extension[][5] = { "xml", "ssrf", "" };
int i = 0;
int flen = strlen(filename);
/* Maybe we might want to make this configurable? */
while (extension[i][0] != '\0') {
int elen = strlen(extension[i]);
if (strcasecmp(filename + flen - elen, extension[i]) == 0) {
if (last_xml_version < DATAFORMAT_VERSION) {
std::string special_ext = std::string(extension[i]) + ".v" + std::to_string(last_xml_version);
save_backup(filename, extension[i], special_ext.c_str());
} else {
save_backup(filename, extension[i], "bak");
}
break;
}
i++;
}
}
int save_dives_logic(const char *filename, const bool select_only, bool anonymize)
{
membuffer buf;
struct git_info info;
FILE *f;
int error = 0;
if (is_git_repository(filename, &info)) {
error = git_save_dives(&info, select_only);
return error;
}
save_dives_buffer(&buf, select_only, anonymize);
if (same_string(filename, "-")) {
f = stdout;
} else {
try_to_backup(filename);
error = -1;
f = subsurface_fopen(filename, "w");
}
if (f) {
flush_buffer(&buf, f);
error = fclose(f);
}
if (error)
report_error(translate("gettextFromC", "Failed to save dives to %s (%s)"), filename, strerror(errno));
return error;
}
static int export_dives_xslt_doit(const char *filename, struct xml_params *params, bool selected, int units, const char *export_xslt, bool anonymize);
int export_dives_xslt(const char *filename, const bool selected, const int units, const char *export_xslt, bool anonymize)
{
struct xml_params *params = alloc_xml_params();
int ret = export_dives_xslt_doit(filename, params, selected, units, export_xslt, anonymize);
free_xml_params(params);
return ret;
}
static int export_dives_xslt_doit(const char *filename, struct xml_params *params, bool selected, int units, const char *export_xslt, bool anonymize)
{
FILE *f;
membuffer buf;
xmlDoc *doc;
xsltStylesheetPtr xslt = NULL;
xmlDoc *transformed;
int res = 0;
if (verbose)
report_info("export_dives_xslt with stylesheet %s", export_xslt);
if (!filename)
return report_error("No filename for export");
/* Save XML to file and convert it into a memory buffer */
save_dives_buffer(&buf, selected, anonymize);
/*
* Parse the memory buffer into XML document and
* transform it to selected export format, finally dumping
* the XML into a character buffer.
*/
doc = xmlReadMemory(buf.buffer, buf.len, "divelog", NULL, XML_PARSE_HUGE);
if (!doc)
return report_error("Failed to read XML memory");
/* Convert to export format */
xslt = get_stylesheet(export_xslt);
if (!xslt)
return report_error("Failed to open export conversion stylesheet");
xml_params_add_int(params, "units", units);
transformed = xsltApplyStylesheet(xslt, doc, xml_params_get(params));
xmlFreeDoc(doc);
/* Write the transformed export to file */
f = subsurface_fopen(filename, "w");
if (f) {
xsltSaveResultToFile(f, transformed, xslt);
fclose(f);
/* Check write errors? */
} else {
res = report_error("Failed to open %s for writing (%s)", filename, strerror(errno));
}
xsltFreeStylesheet(xslt);
xmlFreeDoc(transformed);
return res;
}
static void save_dive_sites_buffer(struct membuffer *b, const struct dive_site *sites[], int nr_sites, bool anonymize)
{
int i;
put_format(b, "<divesites program='subsurface' version='%d'>\n", DATAFORMAT_VERSION);
/* save the dive sites */
for (i = 0; i < nr_sites; i++) {
const struct dive_site *ds = sites[i];
put_format(b, "<site uuid='%8x'", ds->uuid);
show_utf8_blanked(b, ds->name.c_str(), " name='", "'", 1, anonymize);
put_location(b, &ds->location, " gps='", "'");
show_utf8_blanked(b, ds->description.c_str(), " description='", "'", 1, anonymize);
put_format(b, ">\n");
show_utf8_blanked(b, ds->notes.c_str(), " <notes>", " </notes>\n", 0, anonymize);
for (const auto &t: ds->taxonomy) {
if (t.category != TC_NONE && !t.value.empty()) {
put_format(b, " <geo cat='%d'", t.category);
put_format(b, " origin='%d'", t.origin);
show_utf8_blanked(b, t.value.c_str(), " value='", "'", 1, anonymize);
put_format(b, "/>\n");
}
}
put_format(b, "</site>\n");
}
put_format(b, "</divesites>\n");
}
int save_dive_sites_logic(const char *filename, const struct dive_site *sites[], int nr_sites, bool anonymize)
{
membuffer buf;
FILE *f;
int error = 0;
save_dive_sites_buffer(&buf, sites, nr_sites, anonymize);
if (same_string(filename, "-")) {
f = stdout;
} else {
try_to_backup(filename);
error = -1;
f = subsurface_fopen(filename, "w");
}
if (f) {
flush_buffer(&buf, f);
error = fclose(f);
}
if (error)
report_error(translate("gettextFromC", "Failed to save divesites to %s (%s)"), filename, strerror(errno));
return error;
}