subsurface/core/save-profiledata.cpp

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#include "core/save-profiledata.h"
#include "core/dive.h"
#include "core/divelist.h"
#include "core/divelog.h"
#include "core/profile.h"
#include "core/errorhelper.h"
#include "core/file.h"
#include "core/membuffer.h"
#include "core/subsurface-string.h"
#include "core/version.h"
#include <errno.h>
static void put_int(struct membuffer *b, int val)
{
put_format(b, "\"%d\", ", val);
}
static void put_int_with_nl(struct membuffer *b, int val)
{
put_format(b, "\"%d\"\n", val);
}
static void put_csv_string(struct membuffer *b, const char *val)
{
put_format(b, "\"%s\", ", val);
}
static void put_csv_string_with_nl(struct membuffer *b, const char *val)
{
put_format(b, "\"%s\"\n", val);
}
static void put_double(struct membuffer *b, double val)
{
put_format(b, "\"%f\", ", val);
}
static void put_video_time(struct membuffer *b, int secs)
{
int hours = secs / 3600;
secs -= hours * 3600;
int mins = secs / 60;
secs -= mins * 60;
put_format(b, "%d:%02d:%02d.000,", hours, mins, secs);
}
static void put_pd(struct membuffer *b, const struct plot_info &pi, int idx)
{
const struct plot_data &entry = pi.entry[idx];
put_int(b, entry.in_deco);
put_int(b, entry.sec);
for (int c = 0; c < pi.nr_cylinders; c++) {
put_int(b, get_plot_sensor_pressure(pi, idx, c));
put_int(b, get_plot_interpolated_pressure(pi, idx, c));
}
put_int(b, entry.temperature);
put_int(b, entry.depth);
put_int(b, entry.ceiling);
for (int i = 0; i < 16; i++)
put_int(b, entry.ceilings[i]);
for (int i = 0; i < 16; i++)
put_int(b, entry.percentages[i]);
put_int(b, entry.ndl);
put_int(b, entry.tts);
put_int(b, entry.rbt);
put_int(b, entry.stoptime);
put_int(b, entry.stopdepth);
put_int(b, entry.cns);
put_int(b, entry.smoothed);
put_int(b, entry.sac);
put_int(b, entry.running_sum);
put_double(b, entry.pressures.o2);
put_double(b, entry.pressures.n2);
put_double(b, entry.pressures.he);
put_int(b, entry.o2pressure.mbar);
for (int i = 0; i < MAX_O2_SENSORS; i++)
put_int(b, entry.o2sensor[i].mbar);
put_int(b, entry.o2setpoint.mbar);
put_int(b, entry.scr_OC_pO2.mbar);
put_int(b, entry.mod);
put_int(b, entry.ead);
put_int(b, entry.end);
put_int(b, entry.eadd);
switch (entry.velocity) {
case STABLE:
put_csv_string(b, "STABLE");
break;
case SLOW:
put_csv_string(b, "SLOW");
break;
case MODERATE:
put_csv_string(b, "MODERATE");
break;
case FAST:
put_csv_string(b, "FAST");
break;
case CRAZY:
put_csv_string(b, "CRAZY");
break;
}
put_int(b, entry.speed);
put_int(b, entry.in_deco_calc);
put_int(b, entry.ndl_calc);
put_int(b, entry.tts_calc);
put_int(b, entry.stoptime_calc);
put_int(b, entry.stopdepth_calc);
put_int(b, entry.pressure_time);
put_int(b, entry.heartbeat);
put_int(b, entry.bearing);
put_double(b, entry.ambpressure);
put_double(b, entry.gfline);
put_double(b, entry.surface_gf);
put_double(b, entry.density);
put_int_with_nl(b, entry.icd_warning ? 1 : 0);
}
static void put_headers(struct membuffer *b, int nr_cylinders)
{
put_csv_string(b, "in_deco");
put_csv_string(b, "sec");
for (int c = 0; c < nr_cylinders; c++) {
put_format(b, "\"pressure_%d_cylinder\", ", c);
put_format(b, "\"pressure_%d_interpolated\", ", c);
}
put_csv_string(b, "temperature");
put_csv_string(b, "depth");
put_csv_string(b, "ceiling");
for (int i = 0; i < 16; i++)
put_format(b, "\"ceiling_%d\", ", i);
for (int i = 0; i < 16; i++)
put_format(b, "\"percentage_%d\", ", i);
put_csv_string(b, "ndl");
put_csv_string(b, "tts");
put_csv_string(b, "rbt");
put_csv_string(b, "stoptime");
put_csv_string(b, "stopdepth");
put_csv_string(b, "cns");
put_csv_string(b, "smoothed");
put_csv_string(b, "sac");
put_csv_string(b, "running_sum");
put_csv_string(b, "pressureo2");
put_csv_string(b, "pressuren2");
put_csv_string(b, "pressurehe");
put_csv_string(b, "o2pressure");
put_csv_string(b, "o2sensor0");
put_csv_string(b, "o2sensor1");
put_csv_string(b, "o2sensor2");
put_csv_string(b, "o2setpoint");
put_csv_string(b, "scr_oc_po2");
put_csv_string(b, "mod");
put_csv_string(b, "ead");
put_csv_string(b, "end");
put_csv_string(b, "eadd");
put_csv_string(b, "velocity");
put_csv_string(b, "speed");
put_csv_string(b, "in_deco_calc");
put_csv_string(b, "ndl_calc");
put_csv_string(b, "tts_calc");
put_csv_string(b, "stoptime_calc");
put_csv_string(b, "stopdepth_calc");
put_csv_string(b, "pressure_time");
put_csv_string(b, "heartbeat");
put_csv_string(b, "bearing");
put_csv_string(b, "ambpressure");
put_csv_string(b, "gfline");
put_csv_string(b, "surface_gf");
put_csv_string(b, "density");
put_csv_string_with_nl(b, "icd_warning");
}
static void put_st_event(struct membuffer *b, const plot_data &entry, const plot_data &next_entry, int offset, int length)
{
double value;
int decimals;
const char *unit;
if (entry.sec < offset || entry.sec > offset + length)
return;
put_format(b, "Dialogue: 0,");
put_video_time(b, entry.sec - offset);
put_video_time(b, next_entry.sec - offset < length ? next_entry.sec - offset : length);
put_format(b, "Default,,0,0,0,,");
put_format(b, "%d:%02d ", FRACTION_TUPLE(entry.sec, 60));
value = get_depth_units(entry.depth, &decimals, &unit);
put_format(b, "D=%02.2f %s ", value, unit);
if (entry.temperature) {
value = get_temp_units(entry.temperature, &unit);
put_format(b, "T=%.1f%s ", value, unit);
}
// Only show NDL if it is not essentially infinite, show TTS for mandatory stops.
if (entry.ndl_calc < 3600) {
if (entry.ndl_calc > 0)
put_format(b, "NDL=%d:%02d ", FRACTION_TUPLE(entry.ndl_calc, 60));
else
if (entry.tts_calc > 0)
put_format(b, "TTS=%d:%02d ", FRACTION_TUPLE(entry.tts_calc, 60));
}
if (entry.surface_gf > 0.0) {
put_format(b, "sGF=%.1f%% ", entry.surface_gf);
}
put_format(b, "\n");
}
static void save_profiles_buffer(struct membuffer *b, bool select_only)
{
struct deco_state *planner_deco_state = NULL;
for(auto &dive: divelog.dives) {
if (select_only && !dive->selected)
continue;
plot_info pi = create_plot_info_new(dive.get(), &dive->dcs[0], planner_deco_state);
put_headers(b, pi.nr_cylinders);
for (int i = 0; i < pi.nr; i++)
put_pd(b, pi, i);
put_format(b, "\n");
}
}
void save_subtitles_buffer(struct membuffer *b, struct dive *dive, int offset, int length)
{
struct deco_state *planner_deco_state = NULL;
plot_info pi = create_plot_info_new(dive, &dive->dcs[0], planner_deco_state);
put_format(b, "[Script Info]\n");
put_format(b, "; Script generated by Subsurface %s\n", subsurface_canonical_version());
put_format(b, "ScriptType: v4.00+\nPlayResX: 384\nPlayResY: 288\n\n");
put_format(b, "[V4+ Styles]\nFormat: Name, Fontname, Fontsize, PrimaryColour, SecondaryColour, OutlineColour, BackColour, Bold, Italic, Underline, StrikeOut, ScaleX, ScaleY, Spacing, Angle, BorderStyle, Outline, Shadow, Alignment, MarginL, MarginR, MarginV, Encoding\n");
put_format(b, "Style: Default,Arial,12,&Hffffff,&Hffffff,&H0,&H0,0,0,0,0,100,100,0,0,1,1,0,7,10,10,10,0\n\n");
put_format(b, "[Events]\nFormat: Layer, Start, End, Style, Name, MarginL, MarginR, MarginV, Effect, Text\n");
for (int i = 0; i + 1 < pi.nr; i++)
put_st_event(b, pi.entry[i], pi.entry[i + 1], offset, length);
put_format(b, "\n");
}
int save_profiledata(const char *filename, bool select_only)
{
membuffer buf;
FILE *f;
int error = 0;
save_profiles_buffer(&buf, select_only);
if (same_string(filename, "-")) {
f = stdout;
} else {
error = -1;
f = subsurface_fopen(filename, "w");
}
if (f) {
flush_buffer(&buf, f);
error = fclose(f);
}
if (error)
report_error("Save failed (%s)", strerror(errno));
return error;
}