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CCR patch: Adapt pressure interpolation for CCR (2)
This is the second pathch in this series of four, allowing the calculation of cylinder pressures for CCR equipment. Change function fill_missing_tank_pressures in order to enable working with the diuent gas, comprising a complete set of pressures kept separate from all other tank pressures. Flag diluent_flag indicates calculations for the diluent cylinder. [Dirk Hohndel: serious whitespace cleanup] Signed-off-by: willem ferguson <willemferguson@zoology.up.ac.za> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
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1 changed files with 51 additions and 32 deletions
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@ -212,58 +212,76 @@ static struct pr_interpolate_struct get_pr_interpolate_data(pr_track_t *segment,
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return interpolate;
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}
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static void fill_missing_tank_pressures(struct dive *dive, struct plot_info *pi, pr_track_t **track_pr)
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static void fill_missing_tank_pressures(struct dive *dive, struct plot_info *pi, pr_track_t **track_pr, int diluent_flag)
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{
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int cyl, i;
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struct plot_data *entry;
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int cur_pr[MAX_CYLINDERS];
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int diluent_flag = 0;
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int cur_pr[MAX_CYLINDERS]; // cur_pr[MAX_CYLINDERS] is the CCR diluent cylinder
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#ifdef DEBUG_PR_TRACK
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/* another great debugging tool */
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dump_pr_track(track_pr);
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#endif
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for (cyl = 0; cyl < MAX_CYLINDERS; cyl++) {
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if (!track_pr[cyl]) {
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/* no segment where this cylinder is used */
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cur_pr[cyl] = -1;
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continue;
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}
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fill_missing_segment_pressures(track_pr[cyl]);
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cur_pr[cyl] = track_pr[cyl]->start;
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}
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fill_missing_segment_pressures(track_pr[cyl]); // Interpolate the missing tank pressure values ..
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cur_pr[cyl] = track_pr[cyl]->start; // in the pr_track_t lists of structures
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} // and keep the starting pressure for each cylinder.
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/* The first two are "fillers", but in case we don't have a sample
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* at time 0 we need to process the second of them here */
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for (i = 1; i < pi->nr; i++) {
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#ifdef DEBUG_PR_TRACK
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/* another great debugging tool */
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dump_pr_track(track_pr);
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#endif
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/* Transfer interpolated cylinder pressures from pr_track strucktures to plotdata
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* Go down the list of tank pressures in plot_info. Align them with the start &
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* end times of each profile segment represented by a pr_track_t structure. Get
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* the accumulated pressure_depths from the pr_track_t structures and then
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* interpolate the pressure where these do not exist in the plot_info pressure
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* variables. Pressure values are transferred from the pr_track_t structures
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* to the plot_info structure, allowing us to plot the tank pressure.
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*
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* The first two pi structures are "fillers", but in case we don't have a sample
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* at time 0 we need to process the second of them here, therefore i=1 */
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for (i = 1; i < pi->nr; i++) { // For each point on the profile:
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double magic;
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pr_track_t *segment;
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pr_interpolate_t interpolate;
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int pressure;
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int *save_pressure, *save_interpolated;
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entry = pi->entry + i;
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if (diluent_flag) { // Find the cylinder index (cyl) ..
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cyl = DILUENT_CYLINDER; // .. as well as the cylinder pressure
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pressure = DILUENT_PRESSURE(entry);
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save_pressure = &(entry->diluentpressure[SENSOR_PR]);
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save_interpolated = &(entry->diluentpressure[INTERPOLATED_PR]);
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} else {
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pressure = SENSOR_PRESSURE(entry);
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save_pressure = &(entry->pressure[SENSOR_PR]);
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save_interpolated = &(entry->pressure[INTERPOLATED_PR]);
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cyl = entry->cylinderindex;
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if (SENSOR_PRESSURE(entry)) {
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cur_pr[cyl] = SENSOR_PRESSURE(entry);
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continue;
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}
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/* Find the right pressure segment for this entry.. */
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if (pressure) { // If there is a valid pressure value,
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cur_pr[cyl] = pressure; // set current pressure
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continue; // and skip to next point.
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}
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// If there is NO valid pressure value..
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// Find the pressure segment corresponding to this entry..
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segment = track_pr[cyl];
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while (segment && segment->t_end < entry->sec)
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segment = segment->next;
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while (segment && segment->t_end < entry->sec) // Find the track_pr with end time..
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segment = segment->next; // ..that matches the plot_info time (entry->sec)
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/* No (or empty) segment? Just use our current pressure */
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if (!segment || !segment->pressure_time) {
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SENSOR_PRESSURE(entry) = cur_pr[cyl];
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continue;
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if (!segment || !segment->pressure_time) { // No (or empty) segment?
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*save_pressure = cur_pr[cyl]; // Just use our current pressure
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continue; // and skip to next point.
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}
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// If there is a valid segment but no tank pressure ..
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interpolate = get_pr_interpolate_data(segment, pi, i, diluent_flag); // Set up an interpolation structure
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interpolate = get_pr_interpolate_data(segment, pi, i, diluent_flag);
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#ifdef DEBUG_PR_INTERPOLATE
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dump_pr_interpolate(i, interpolate);
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#endif
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/* if this segment has pressure time, calculate a new interpolated pressure */
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/* if this segment has pressure_time, then calculate a new interpolated pressure */
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if (interpolate.pressure_time) {
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/* Overall pressure change over total pressure-time for this segment*/
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magic = (interpolate.end - interpolate.start) / (double)interpolate.pressure_time;
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@ -271,10 +289,11 @@ static void fill_missing_tank_pressures(struct dive *dive, struct plot_info *pi,
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/* Use that overall pressure change to update the current pressure */
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cur_pr[cyl] = rint(interpolate.start + magic * interpolate.acc_pressure_time);
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}
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INTERPOLATED_PRESSURE(entry) = cur_pr[cyl];
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*save_interpolated = cur_pr[cyl]; // and store the interpolated data in plot_info
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}
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}
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/*
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* What's the pressure-time between two plot data entries?
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* We're calculating the integral of pressure over time by
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@ -342,7 +361,7 @@ void populate_pressure_information(struct dive *dive, struct divecomputer *dc, s
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}
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if (missing_pr) {
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fill_missing_tank_pressures(dive, pi, track_pr);
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fill_missing_tank_pressures(dive, pi, track_pr, 0);
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}
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for (i = 0; i < MAX_CYLINDERS; i++)
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list_free(track_pr[i]);
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