#include #include #include #include "membuffer.h" #include #include #include #include "parse.h" #include "dive.h" #include "divelog.h" #include "divesite.h" #include "errorhelper.h" #include "format.h" #include "sample.h" #include "subsurface-string.h" #include "picture.h" #include "trip.h" #include "device.h" #include "gettext.h" parser_state::parser_state() = default; parser_state::~parser_state() = default; /* * If we don't have an explicit dive computer, * we use the implicit one that every dive has.. */ struct divecomputer *get_dc(struct parser_state *state) { return state->cur_dc ?: &state->cur_dive->dcs[0]; } void start_match(const char *type, const char *name, char *buffer) { if (verbose > 2) printf("Matching %s '%s' (%s)\n", type, name, buffer); } void nonmatch(const char *type, const char *name, char *buffer) { if (verbose > 1) printf("Unable to match %s '%s' (%s)\n", type, name, buffer); } void event_start(struct parser_state *state) { state->cur_event = event(); state->event_active = true; /* Active */ } void event_end(struct parser_state *state) { struct divecomputer *dc = get_dc(state); if (state->cur_event.type == 123) { struct picture pic; pic.filename = state->cur_event.name; /* theoretically this could fail - but we didn't support multi year offsets */ pic.offset.seconds = state->cur_event.time.seconds; add_picture(state->cur_dive->pictures, std::move(pic)); } else { /* At some point gas change events did not have any type. Thus we need to add * one on import, if we encounter the type one missing. */ if (state->cur_event.type == 0 && state->cur_event.name == "gaschange") state->cur_event.type = state->cur_event.value >> 16 > 0 ? SAMPLE_EVENT_GASCHANGE2 : SAMPLE_EVENT_GASCHANGE; struct event ev(state->cur_event.time.seconds, state->cur_event.type, state->cur_event.flags, state->cur_event.value, state->cur_event.name); /* * Older logs might mark the dive to be CCR by having an "SP change" event at time 0:00. Better * to mark them being CCR on import so no need for special treatments elsewhere on the code. */ if (ev.time.seconds == 0 && ev.type == SAMPLE_EVENT_PO2 && ev.value && dc->divemode==OC) dc->divemode = CCR; if (ev.is_gaschange()) { /* See try_to_fill_event() on why the filled-in index is one too big */ ev.gas.index = state->cur_event.gas.index-1; if (state->cur_event.gas.mix.o2.permille || state->cur_event.gas.mix.he.permille) ev.gas.mix = state->cur_event.gas.mix; } add_event_to_dc(dc, std::move(ev)); } state->event_active = false; /* No longer active */ } /* * While in some formats file boundaries are dive boundaries, in many * others (as for example in our native format) there are * multiple dives per file, so there can be other events too that * trigger a "new dive" marker and you may get some nesting due * to that. Just ignore nesting levels. * On the flipside it is possible that we start an XML file that ends * up having no dives in it at all - don't create a bogus empty dive * for those. It's not entirely clear what is the minimum set of data * to make a dive valid, but if it has no location, no date and no * samples I'm pretty sure it's useless. */ bool is_dive(struct parser_state *state) { return state->cur_dive && (state->cur_dive->dive_site || state->cur_dive->when || !state->cur_dive->dcs[0].samples.empty()); } void reset_dc_info(struct divecomputer *, struct parser_state *state) { /* WARN: reset dc info does't touch the dc? */ state->lastcylinderindex = 0; } void reset_dc_settings(struct parser_state *state) { state->cur_settings.dc.model.clear(); state->cur_settings.dc.nickname.clear(); state->cur_settings.dc.serial_nr.clear(); state->cur_settings.dc.firmware.clear(); state->cur_settings.dc.deviceid = 0; } void reset_fingerprint(struct parser_state *state) { state->cur_settings.fingerprint.data.clear(); state->cur_settings.fingerprint.model = 0; state->cur_settings.fingerprint.serial = 0; state->cur_settings.fingerprint.fdeviceid = 0; state->cur_settings.fingerprint.fdiveid = 0; } void settings_start(struct parser_state *state) { state->in_settings = true; } void settings_end(struct parser_state *state) { state->in_settings = false; } void fingerprint_settings_start(struct parser_state *state) { reset_fingerprint(state); } void fingerprint_settings_end(struct parser_state *state) { create_fingerprint_node_from_hex(*state->fingerprints, state->cur_settings.fingerprint.model, state->cur_settings.fingerprint.serial, state->cur_settings.fingerprint.data, state->cur_settings.fingerprint.fdeviceid, state->cur_settings.fingerprint.fdiveid); } void dc_settings_start(struct parser_state *state) { reset_dc_settings(state); } void dc_settings_end(struct parser_state *state) { create_device_node(state->log->devices, state->cur_settings.dc.model, state->cur_settings.dc.serial_nr, state->cur_settings.dc.nickname); reset_dc_settings(state); } void dive_site_start(struct parser_state *state) { if (state->cur_dive_site) return; state->taxonomy_category = -1; state->taxonomy_origin = -1; state->cur_dive_site = std::make_unique(); } void dive_site_end(struct parser_state *state) { if (!state->cur_dive_site) return; struct dive_site *ds = state->log->sites.alloc_or_get(state->cur_dive_site->uuid); ds->merge(*state->cur_dive_site); if (verbose > 3) printf("completed dive site uuid %x8 name {%s}\n", ds->uuid, ds->name.c_str()); state->cur_dive_site.reset(); } void filter_preset_start(struct parser_state *state) { if (state->cur_filter) return; state->cur_filter = std::make_unique(); } void filter_preset_end(struct parser_state *state) { state->log->filter_presets.add(*state->cur_filter); state->cur_filter.reset(); } void fulltext_start(struct parser_state *state) { if (!state->cur_filter) return; state->in_fulltext = true; } void fulltext_end(struct parser_state *state) { if (!state->in_fulltext) return; state->cur_filter->set_fulltext(std::move(state->fulltext), state->fulltext_string_mode); state->fulltext.clear(); state->fulltext_string_mode.clear(); state->in_fulltext = false; } void filter_constraint_start(struct parser_state *state) { if (!state->cur_filter) return; state->in_filter_constraint = true; } void filter_constraint_end(struct parser_state *state) { if (!state->in_filter_constraint) return; state->cur_filter->add_constraint(state->filter_constraint_type, state->filter_constraint_string_mode, state->filter_constraint_range_mode, state->filter_constraint_negate, state->filter_constraint); state->filter_constraint_type.clear(); state->filter_constraint_string_mode.clear(); state->filter_constraint_range_mode.clear(); state->filter_constraint_negate = false; state->filter_constraint.clear(); state->in_filter_constraint = false; } void dive_start(struct parser_state *state) { if (state->cur_dive) return; state->cur_dive = std::make_unique(); reset_dc_info(&state->cur_dive->dcs[0], state); memset(&state->cur_tm, 0, sizeof(state->cur_tm)); state->o2pressure_sensor = 1; } void dive_end(struct parser_state *state) { if (!state->cur_dive) return; if (is_dive(state)) { if (state->cur_trip) state->cur_trip->add_dive(state->cur_dive.get()); // This would add dives in a sorted way: state->log->dives.record_dive(std::move(state->cur_dive)); } state->cur_dive.reset(); state->cur_dc = NULL; state->cur_location = location_t(); } void trip_start(struct parser_state *state) { if (state->cur_trip) return; dive_end(state); state->cur_trip = std::make_unique(); memset(&state->cur_tm, 0, sizeof(state->cur_tm)); } void trip_end(struct parser_state *state) { if (!state->cur_trip) return; state->log->trips.put(std::move(state->cur_trip)); } void picture_start(struct parser_state *state) { } void picture_end(struct parser_state *state) { add_picture(state->cur_dive->pictures, std::move(state->cur_picture)); /* dive_add_picture took ownership, we can just clear out copy of the data */ state->cur_picture = picture(); } cylinder_t *cylinder_start(struct parser_state *state) { state->cur_dive->cylinders.emplace_back(); return &state->cur_dive->cylinders.back(); } void cylinder_end(struct parser_state *state) { } void ws_start(struct parser_state *state) { state->cur_dive->weightsystems.emplace_back(); } void ws_end(struct parser_state *state) { } /* * If the given cylinder doesn't exist, return NO_SENSOR. */ static int sanitize_sensor_id(const struct dive *d, int nr) { return d && nr >= 0 && static_cast(nr) < d->cylinders.size() ? nr : NO_SENSOR; } /* * By default the sample data does not change unless the * save-file gives an explicit new value. So we copy the * data from the previous sample if one exists, and then * the parsing will update it as necessary. * * There are a few exceptions, like the sample pressure: * missing sample pressure doesn't mean "same as last * time", but "interpolate". We clear those ones * explicitly. * * NOTE! We default sensor use to 0, 1 respetively for * the two sensors, but for CCR dives with explicit * OXYGEN bottles we set the secondary sensor to that. * Then the primary sensor will be either the first * or the second cylinder depending on what isn't an * oxygen cylinder. */ void sample_start(struct parser_state *state) { struct divecomputer *dc = get_dc(state); struct sample *sample = prepare_sample(dc); if (dc->samples.size() > 1) { *sample = dc->samples[dc->samples.size() - 2]; sample->pressure[0] = 0_bar; sample->pressure[1] = 0_bar; } else { sample->sensor[0] = sanitize_sensor_id(state->cur_dive.get(), !state->o2pressure_sensor); sample->sensor[1] = sanitize_sensor_id(state->cur_dive.get(), state->o2pressure_sensor); } state->cur_sample = sample; state->next_o2_sensor = 0; } void sample_end(struct parser_state *state) { if (!state->cur_dive) return; state->cur_sample = NULL; } void divecomputer_start(struct parser_state *state) { struct divecomputer *dc = &state->cur_dive->dcs.back(); /* Did we already fill that in? */ if (!dc->samples.empty() || !dc->model.empty() || dc->when) { state->cur_dive->dcs.emplace_back(); dc = &state->cur_dive->dcs.back(); } /* .. this is the one we'll use */ state->cur_dc = dc; reset_dc_info(dc, state); } void divecomputer_end(struct parser_state *state) { if (!state->cur_dc->when) state->cur_dc->when = state->cur_dive->when; state->cur_dc = NULL; } void userid_start(struct parser_state *state) { state->in_userid = true; } void userid_stop(struct parser_state *state) { state->in_userid = false; } /* * Copy whitespace-trimmed string. */ void utf8_string_std(const char *buffer, std::string *res) { while (isspace(*buffer)) ++buffer; if (!*buffer) { res->clear(); return; } const char *end = buffer + strlen(buffer); while (isspace(end[-1])) --end; *res = std::string(buffer, end - buffer); } void add_dive_site(const char *ds_name, struct dive *dive, struct parser_state *state) { const char *buffer = ds_name; std::string trimmed = trimspace(buffer); if (!trimmed.empty()) { struct dive_site *ds = dive->dive_site; if (!ds) { // if the dive doesn't have a dive site, check if there's already a dive site by this name ds = state->log->sites.get_by_name(trimmed); } if (ds) { // we have a dive site, let's hope there isn't a different name if (ds->name.empty()) { ds->name = trimmed; } else if (trimmed != ds->name) { // if it's not the same name, it's not the same dive site // but wait, we could have gotten this one based on GPS coords and could // have had two different names for the same site... so let's search the other // way around struct dive_site *exact_match = state->log->sites.get_by_gps_and_name(trimmed, ds->location); if (exact_match) { unregister_dive_from_dive_site(dive); exact_match->add_dive(dive); } else { struct dive_site *newds = state->log->sites.create(trimmed.c_str()); unregister_dive_from_dive_site(dive); newds->add_dive(dive); if (has_location(&state->cur_location)) { // we started this uuid with GPS data, so lets use those newds->location = state->cur_location; } else { newds->location = ds->location; } newds->notes += '\n'; newds->notes += format_string_std(translate("gettextFromC", "additional name for site: %s\n"), ds->name.c_str()); } } else if (dive->dive_site != ds) { // add the existing dive site to the current dive unregister_dive_from_dive_site(dive); ds->add_dive(dive); } } else { state->log->sites.create(trimmed)->add_dive(dive); } } }