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-rw-r--r--Makefile5
-rw-r--r--deco.c143
-rw-r--r--dive.h3
-rw-r--r--profile.c27
4 files changed, 177 insertions, 1 deletions
diff --git a/Makefile b/Makefile
index 81e4014fd..dc3a66aa8 100644
--- a/Makefile
+++ b/Makefile
@@ -130,7 +130,7 @@ LIBS = $(LIBXML2) $(LIBXSLT) $(LIBGTK) $(LIBGCONF2) $(LIBDIVECOMPUTER) $(EXTRALI
MSGLANGS=$(notdir $(wildcard po/*po))
MSGOBJS=$(addprefix share/locale/,$(MSGLANGS:.po=.UTF-8/LC_MESSAGES/subsurface.mo))
-OBJS = main.o dive.o time.o profile.o info.o equipment.o divelist.o \
+OBJS = main.o dive.o time.o profile.o info.o equipment.o divelist.o deco.o \
parse-xml.o save-xml.o libdivecomputer.o print.o uemis.o uemis-downloader.o \
gtk-gui.o statistics.o file.o cochran.o $(OSSUPPORT).o $(RESFILE)
@@ -244,6 +244,9 @@ divelist.o: divelist.c dive.h display.h divelist.h
print.o: print.c dive.h display.h display-gtk.h
$(CC) $(CFLAGS) $(GTK2CFLAGS) $(GLIB2CFLAGS) $(XML2CFLAGS) -c print.c
+deco.o: deco.c dive.h
+ $(CC) $(CFLAGS) $(GLIB2CFLAGS) -c deco.c
+
libdivecomputer.o: libdivecomputer.c dive.h display.h display-gtk.h libdivecomputer.h
$(CC) $(CFLAGS) $(GTK2CFLAGS) $(GLIB2CFLAGS) $(XML2CFLAGS) \
$(LIBDIVECOMPUTERCFLAGS) \
diff --git a/deco.c b/deco.c
new file mode 100644
index 000000000..6901e6c6a
--- /dev/null
+++ b/deco.c
@@ -0,0 +1,143 @@
+/* calculate deco values
+ * based on Bühlmann ZHL-16b
+ * based on an implemention by heinrichs weikamp for the DR5
+ * the original file doesn't carry a license and is used here with
+ * the permission of Matthias Heinrichs
+ *
+ * The implementation below is (C) Dirk Hohndel 2012 and released under the GPLv2
+ *
+ * clear_deco() - call to initialize for a new deco calculation
+ * add_segment(pressure, gasmix) - add 1 second at the given pressure, breathing gasmix
+ */
+#include "dive.h"
+
+//! Option structure for Buehlmann decompression.
+struct buehlmann_config {
+ double satmult; //! safety at inert gas accumulation as percentage of effect (more than 100).
+ double desatmult; //! safety at inert gas depletion as percentage of effect (less than 100).
+ double safety_dist_deco_stop;//! assumed distance to official decompression where decompression takes places.
+ int last_deco_stop_in_mtr; //! depth of last_deco_stop.
+ double gf_high; //! gradient factor high (at surface).
+ double gf_low; //! gradient factor low (at bottom/start of deco calculation).
+ double gf_low_position_min; //! gf_low_position below surface_min_shallow.
+ double gf_low_position_max; //! gf_low_position below surface_max_depth.
+ double gf_high_emergency; //! emergency gf factors
+ double gf_low_emergency; //! gradient factor low (at bottom/start of deco calculation).
+};
+
+struct dive_data
+{
+ double pressure; //! pesent ambient pressure
+ double surface; //! pressure at water surface
+ struct gasmix *gasmix; //! current selected gas
+};
+
+const double buehlmann_N2_a[] = {1.1696, 1.0, 0.8618, 0.7562,
+ 0.62, 0.5043, 0.441, 0.4,
+ 0.375, 0.35, 0.3295, 0.3065,
+ 0.2835, 0.261, 0.248, 0.2327};
+
+const double buehlmann_N2_b[] = {0.5578, 0.6514, 0.7222, 0.7825,
+ 0.8126, 0.8434, 0.8693, 0.8910,
+ 0.9092, 0.9222, 0.9319, 0.9403,
+ 0.9477, 0.9544, 0.9602, 0.9653};
+
+const double buehlmann_N2_t_halflife[] = {5.0, 8.0, 12.5, 18.5,
+ 27.0, 38.3, 54.3, 77.0,
+ 109.0, 146.0, 187.0, 239.0,
+ 305.0, 390.0, 498.0, 635.0};
+
+const double buehlmann_N2_factor_expositon_one_second[] = {
+ 2.30782347297664E-003, 1.44301447809736E-003, 9.23769302935806E-004, 6.24261986779007E-004,
+ 4.27777107246730E-004, 3.01585140931371E-004, 2.12729727268379E-004, 1.50020603047807E-004,
+ 1.05980191127841E-004, 7.91232600646508E-005, 6.17759153688224E-005, 4.83354552742732E-005,
+ 3.78761777920511E-005, 2.96212356654113E-005, 2.31974277413727E-005, 1.81926738960225E-005};
+
+const double buehlmann_He_a[] = { 1.6189, 1.383 , 1.1919, 1.0458,
+ 0.922 , 0.8205, 0.7305, 0.6502,
+ 0.595 , 0.5545, 0.5333, 0.5189,
+ 0.5181, 0.5176, 0.5172, 0.5119};
+
+const double buehlmann_He_b[] = {0.4770, 0.5747, 0.6527, 0.7223,
+ 0.7582, 0.7957, 0.8279, 0.8553,
+ 0.8757, 0.8903, 0.8997, 0.9073,
+ 0.9122, 0.9171, 0.9217, 0.9267};
+
+const double buehlmann_He_t_halflife[] = {1.88, 3.02, 4.72, 6.99,
+ 10.21, 14.48, 20.53, 29.11,
+ 41.20, 55.19, 70.69, 90.34,
+ 115.29, 147.42, 188.24, 240.03};
+
+const double buehlmann_He_factor_expositon_one_second[] = {
+ 6.12608039419837E-003, 3.81800836683133E-003, 2.44456078654209E-003, 1.65134647076792E-003,
+ 1.13084424730725E-003, 7.97503165599123E-004, 5.62552521860549E-004, 3.96776399429366E-004,
+ 2.80360036664540E-004, 2.09299583354805E-004, 1.63410794820518E-004, 1.27869320250551E-004,
+ 1.00198406028040E-004, 7.83611475491108E-005, 6.13689891868496E-005, 4.81280465299827E-005};
+
+#define WV_PRESSURE 0.0627 /* water vapor pressure */
+
+double tissue_n2_sat[16];
+double tissue_he_sat[16];
+double tissue_tolerated_ambient_pressure[16];
+int ci_pointing_to_guiding_tissue;
+int divetime;
+
+struct buehlmann_config buehlmann_config = { 1.0, 1.01, 0.5, 3, 95.0, 95.0, 10.0, 30.0, 95.0, 95.0 };
+
+static double tissue_tolerance_calc(void)
+{
+ int ci = -1;
+ double tissue_inertgas_saturation, buehlmann_inertgas_a, buehlmann_inertgas_b;
+ double ret_tolerance_limit_ambient_pressure = -1.0;
+
+ for (ci = 0; ci < 16; ci++)
+ {
+ tissue_inertgas_saturation = tissue_n2_sat[ci] + tissue_he_sat[ci];
+ buehlmann_inertgas_a = ((buehlmann_N2_a[ci] * tissue_n2_sat[ci]) + (buehlmann_He_a[ci] * tissue_he_sat[ci])) / tissue_inertgas_saturation;
+ buehlmann_inertgas_b = ((buehlmann_N2_b[ci] * tissue_n2_sat[ci]) + (buehlmann_He_b[ci] * tissue_he_sat[ci])) / tissue_inertgas_saturation;
+
+ tissue_tolerated_ambient_pressure[ci] = (tissue_inertgas_saturation - buehlmann_inertgas_a) * buehlmann_inertgas_b;
+
+ if (tissue_tolerated_ambient_pressure[ci] > ret_tolerance_limit_ambient_pressure)
+ {
+ ci_pointing_to_guiding_tissue = ci;
+ ret_tolerance_limit_ambient_pressure = tissue_tolerated_ambient_pressure[ci];
+ }
+ }
+ printf("%d:%02u %lf\n",FRACTION(divetime, 60), ret_tolerance_limit_ambient_pressure);
+ return (ret_tolerance_limit_ambient_pressure);
+}
+
+/* add a second at the given pressure and gas to the deco calculation */
+double add_segment(double pressure, struct gasmix *gasmix)
+{
+ int ci;
+ double ppn2 = (pressure - WV_PRESSURE) * (1000 - gasmix->o2.permille - gasmix->he.permille) / 1000.0;
+ double pphe = (pressure - WV_PRESSURE) * gasmix->he.permille / 1000.0;
+
+ divetime++;
+ printf("%2d:%02u N2 %2.3lf He %2.3lf",FRACTION(divetime, 60), ppn2, pphe);
+ /* right now we just do OC */
+ for (ci = 0; ci < 16; ci++) {
+ if (ppn2 - tissue_n2_sat[ci] > 0)
+ tissue_n2_sat[ci] += buehlmann_config.satmult * (ppn2 - tissue_n2_sat[ci]) * buehlmann_N2_factor_expositon_one_second[ci];
+ else
+ tissue_n2_sat[ci] += buehlmann_config.desatmult * (ppn2 - tissue_n2_sat[ci]) * buehlmann_N2_factor_expositon_one_second[ci];
+ if (pphe - tissue_he_sat[ci] > 0)
+ tissue_he_sat[ci] += buehlmann_config.satmult * (pphe - tissue_he_sat[ci]) * buehlmann_He_factor_expositon_one_second[ci];
+ else
+ tissue_he_sat[ci] += buehlmann_config.desatmult * (pphe - tissue_he_sat[ci]) * buehlmann_He_factor_expositon_one_second[ci];
+ }
+ return tissue_tolerance_calc();
+}
+
+void clear_deco()
+{
+ int ci;
+ for (ci = 0; ci < 16; ci++) {
+ tissue_n2_sat[ci] = 0.0;
+ tissue_he_sat[ci] = 0.0;
+ tissue_tolerated_ambient_pressure[ci] = 0.0;
+ }
+ divetime = 0;
+}
diff --git a/dive.h b/dive.h
index 9b92baaa7..b5d3368a5 100644
--- a/dive.h
+++ b/dive.h
@@ -572,6 +572,9 @@ extern void subsurface_command_line_exit(gint *, gchar ***);
#define FRACTION(n,x) ((unsigned)(n)/(x)),((unsigned)(n)%(x))
+extern double add_segment(double pressure, struct gasmix *gasmix);
+extern void clear_deco(void);
+
#ifdef DEBUGFILE
extern char *debugfilename;
extern FILE *debugfile;
diff --git a/profile.c b/profile.c
index dea1ad6ee..88f2cb80e 100644
--- a/profile.c
+++ b/profile.c
@@ -40,6 +40,7 @@ struct plot_data {
int temperature;
/* Depth info */
int depth;
+ int ceiling;
int ndl;
int stoptime;
int stopdepth;
@@ -1539,10 +1540,13 @@ static struct plot_info *create_plot_info(struct dive *dive, struct divecomputer
struct plot_data *entry = NULL;
struct event *ev;
double amb_pressure, po2;
+ int surface_pressure = dive->surface_pressure.mbar ? dive->surface_pressure.mbar : 1013;
/* The plot-info is embedded in the graphics context */
pi = &gc->pi;
+ /* reset deco information to start the calculation */
+ clear_deco();
/* we want to potentially add synthetic plot_info elements for the gas changes */
nr = dc->samples + 4 + 2 * count_gas_change_events(dc);
if (last_pi_entry)
@@ -1724,6 +1728,24 @@ static struct plot_info *create_plot_info(struct dive *dive, struct divecomputer
current->pressure_time += (entry->sec - (entry-1)->sec) *
depth_to_mbar((entry->depth + (entry-1)->depth) / 2, dive) / 1000.0;
missing_pr |= !SENSOR_PRESSURE(entry);
+ /* and now let's try to do some deco calculations */
+ if (i > 0) {
+ int j;
+ int t0 = (entry - 1)->sec;
+ int t1 = entry->sec;
+ float ceiling_pressure = 0;
+ for (j = t0; j < t1; j++) {
+ int depth = 0.5 + (entry - 1)->depth + (j - t0) * (entry->depth - (entry - 1)->depth) / (t1 - t0);
+ double min_pressure = add_segment(depth_to_mbar(depth, dive) / 1000.0, &dive->cylinder[cylinderindex].gasmix);
+ if (min_pressure > ceiling_pressure)
+ ceiling_pressure = min_pressure;
+ }
+ ceiling_pressure = ceiling_pressure * 1000.0 + 0.5;
+ if (ceiling_pressure > surface_pressure)
+ entry->ceiling = rel_mbar_to_depth(ceiling_pressure - surface_pressure, dive);
+ else
+ entry->ceiling = 0;
+ }
}
if (entry)
@@ -1965,6 +1987,11 @@ static void plot_string(struct plot_data *entry, char *buf, size_t bufsize,
memcpy(buf2, buf, bufsize);
snprintf(buf, bufsize, "%s\nT:%.1f %s", buf2, tempvalue, temp_unit);
}
+ if (entry->ceiling) {
+ depthvalue = get_depth_units(entry->ceiling, NULL, &depth_unit);
+ memcpy(buf2, buf, bufsize);
+ snprintf(buf, bufsize, "%s\nCalculated ceiling %.0f %s", buf2, depthvalue, depth_unit);
+ }
if (entry->stopdepth) {
depthvalue = get_depth_units(entry->stopdepth, NULL, &depth_unit);
memcpy(buf2, buf, bufsize);