int selected_dive = 0;
-/* Plot info with smoothing and one-, two- and three-minute minimums and maximums */
+/* Plot info with smoothing, velocity indication
+ * and one-, two- and three-minute minimums and maximums */
struct plot_info {
int nr;
int maxtime;
/* Depth info */
int val;
int smoothed;
+ enum { STABLE, SLOW, MODERATE, FAST, CRAZY } velocity;
struct plot_data *min[3];
struct plot_data *max[3];
int avg[3];
} entry[];
};
+
+/* convert velocity to colors */
+typedef struct { double r, g, b; } rgb_t;
+static const rgb_t rgb[] = {
+ [STABLE] = {0.0, 0.4, 0.0},
+ [SLOW] = {0.4, 0.8, 0.0},
+ [MODERATE] = {0.8, 0.8, 0.0},
+ [FAST] = {0.8, 0.5, 0.0},
+ [CRAZY] = {1.0, 0.0, 0.0},
+};
+
#define plot_info_size(nr) (sizeof(struct plot_info) + (nr)*sizeof(struct plot_data))
/* Scale to 0,0 -> maxx,maxy */
* current dive. However, we don't scale past less than
* 30 minutes or 90 ft, just so that small dives show
* up as such.
+ * we also need to add 180 seconds at the end so the min/max
+ * plots correctly
*/
static int get_maxtime(struct plot_info *pi)
{
int seconds = pi->maxtime;
- return MAX(30*60, ROUND_UP(seconds, 60*10));
+ /* min 30 minutes, rounded up to 5 minutes, with at least 2.5 minutes to spare */
+ return MAX(30*60, ROUND_UP(seconds+150, 60*5));
}
static int get_maxdepth(struct plot_info *pi)
{
unsigned mm = pi->maxdepth;
- /* Minimum 30m */
+ /* Minimum 30m, rounded up to 10m, with at least 3m to spare */
return MAX(30000, ROUND_UP(mm+3000, 10000));
}
typedef struct {
int size;
double r,g,b;
- enum {CENTER,LEFT} halign;
- enum {MIDDLE,TOP,BOTTOM} valign;
+ double hpos, vpos;
} text_render_options_t;
+#define RIGHT (-1.0)
+#define CENTER (-0.5)
+#define LEFT (0.0)
+
+#define TOP (1)
+#define MIDDLE (0)
+#define BOTTOM (-1)
+
static void plot_text(struct graphics_context *gc, const text_render_options_t *tro,
double x, double y, const char *fmt, ...)
{
cairo_t *cr = gc->cr;
+ cairo_font_extents_t fe;
cairo_text_extents_t extents;
double dx, dy;
char buffer[80];
va_end(args);
cairo_set_font_size(cr, tro->size);
+ cairo_font_extents(cr, &fe);
cairo_text_extents(cr, buffer, &extents);
- dx = 0;
- switch (tro->halign) {
- case CENTER:
- dx = -(extents.width/2 + extents.x_bearing);
- break;
- case LEFT:
- dx = 0;
- break;
- }
- switch (tro->valign) {
- case TOP:
- dy = extents.height * 1.2;
- break;
- case BOTTOM:
- dy = -extents.height * 0.8;
- break;
- case MIDDLE:
- dy = 0;
- break;
- }
+ dx = tro->hpos * extents.width + extents.x_bearing;
+ dy = tro->vpos * extents.height + fe.descent;
move_to(gc, x, y);
cairo_rel_move_to(cr, dx, dy);
{
int i;
cairo_t *cr = gc->cr;
- int begins, sec, depth;
+ int ends, sec, depth;
+ int *secs;
+ int *depths;
struct plot_data *entry;
int maxtime, maxdepth, marker;
entry = pi->entry;
set_source_rgba(gc, 1, 0.2, 0.2, 0.80);
- begins = entry->sec;
- move_to(gc, entry->sec, entry->val);
+ secs = (int *) malloc(sizeof(int) * pi->nr);
+ depths = (int *) malloc(sizeof(int) * pi->nr);
+ secs[0] = entry->sec;
+ depths[0] = entry->val;
for (i = 1; i < pi->nr; i++) {
entry++;
sec = entry->sec;
- if (sec <= maxtime) {
+ if (sec <= maxtime || entry->val > 0) {
+ /* we want to draw the segments in different colors
+ * representing the vertical velocity, so we need to
+ * chop this into short segments */
+ rgb_t color = rgb[entry->velocity];
depth = entry->val;
+ set_source_rgb(gc, color.r, color.g, color.b);
+ move_to(gc, secs[i-1], depths[i-1]);
line_to(gc, sec, depth);
+ cairo_stroke(cr);
+ ends = i;
}
+ secs[i] = sec;
+ depths[i] = depth;
}
+ move_to(gc, secs[ends], depths[ends]);
gc->topy = 0; gc->bottomy = 1.0;
- line_to(gc, MIN(sec,maxtime), 0);
- line_to(gc, begins, 0);
+ line_to(gc, secs[ends], 0);
+ line_to(gc, secs[0], 0);
cairo_close_path(cr);
- set_source_rgba(gc, 1, 0.2, 0.2, 0.20);
- cairo_fill_preserve(cr);
set_source_rgba(gc, 1, 0.2, 0.2, 0.80);
cairo_stroke(cr);
+ /* now do it again for the neat fill */
+ gc->topy = 0; gc->bottomy = maxdepth;
+ set_source_rgba(gc, 1, 0.2, 0.2, 0.20);
+ move_to(gc, secs[0], depths[0]);
+ for (i = 1; i <= ends; i++) {
+ line_to(gc, secs[i],depths[i]);
+ }
+ gc->topy = 0; gc->bottomy = 1.0;
+ line_to(gc, secs[ends], 0);
+ line_to(gc, secs[0], 0);
+ cairo_close_path(gc->cr);
+ cairo_fill(gc->cr);
}
static int setup_temperature_limits(struct graphics_context *gc, struct plot_info *pi)
{
- int maxtime, mintemp, maxtemp;
+ int maxtime, mintemp, maxtemp, delta;
/* Get plot scaling limits */
maxtime = get_maxtime(pi);
maxtemp = pi->maxtemp;
gc->leftx = 0; gc->rightx = maxtime;
- /* Show temperatures in roughly the lower third */
- gc->topy = maxtemp + (maxtemp - mintemp)*2;
- gc->bottomy = mintemp - (maxtemp - mintemp)/2;
+ /* Show temperatures in roughly the lower third, but make sure the scale
+ is at least somewhat reasonable */
+ delta = maxtemp - mintemp;
+ if (delta > 3000) { /* more than 3K in fluctuation */
+ gc->topy = maxtemp + delta*2;
+ gc->bottomy = mintemp - delta/2;
+ } else {
+ gc->topy = maxtemp + 1500 + delta*2;
+ gc->bottomy = mintemp - delta/2;
+ }
return maxtemp > mintemp;
}
static void plot_info(struct dive *dive, struct graphics_context *gc)
{
- text_render_options_t tro = {10, 0.2, 1.0, 0.2, LEFT, TOP};
+ text_render_options_t tro = {10, 0.2, 1.0, 0.2, RIGHT, BOTTOM};
const double liters_per_cuft = 28.317;
- const char *unit, *desc;
+ const char *unit, *format, *desc;
double airuse;
+ char buffer1[80];
+ char buffer2[80];
+ int len;
airuse = calculate_airuse(dive);
- if (!airuse)
+ if (!airuse) {
+ update_air_info(" \n ");
return;
-
- /* I really need to start addign some unit setting thing */
+ }
switch (output_units.volume) {
case LITER:
unit = "l";
+ format = "vol: %4.0f %s";
break;
case CUFT:
unit = "cuft";
+ format = "vol: %4.2f %s";
airuse /= liters_per_cuft;
break;
}
- plot_text(gc, &tro, 0.8, 0.8, "vol: %4.2f %s", airuse, unit);
+ tro.vpos = -1.0;
+ plot_text(gc, &tro, 0.98, 0.98, format, airuse, unit);
+ len = snprintf(buffer1, sizeof(buffer1), format, airuse, unit);
+ tro.vpos = -2.2;
if (dive->duration.seconds) {
double pressure = 1 + (dive->meandepth.mm / 10000.0);
double sac = airuse / pressure * 60 / dive->duration.seconds;
- plot_text(gc, &tro, 0.8, 0.85, "SAC: %4.2f %s/min", sac, unit);
+ plot_text(gc, &tro, 0.98, 0.98, "SAC: %4.2f %s/min", sac, unit);
+ snprintf(buffer1+len, sizeof(buffer1)-len,
+ "\nSAC: %4.2f %s/min", sac, unit);
}
+ len = 0;
+ tro.vpos = -3.4;
desc = dive->cylinder[0].type.description;
if (desc || dive->cylinder[0].gasmix.o2.permille) {
int o2 = dive->cylinder[0].gasmix.o2.permille / 10;
desc = "";
if (!o2)
o2 = 21;
- plot_text(gc, &tro, 0.8, 0.9, "%s (%d%%)", desc, o2);
+ plot_text(gc, &tro, 0.98, 0.98, "%s (%d%%)", desc, o2);
+ len = snprintf(buffer2, sizeof(buffer2), "%s (%d%%): used ", desc, o2);
}
+ snprintf(buffer2+len, sizeof(buffer2)-len, buffer1);
+ update_air_info(buffer2);
}
static int mbar_to_PSI(int mbar)
}
/* Smoothing function: 5-point triangular smooth */
- for (i = 2; i < nr-2; i++) {
+ for (i = 2; i < nr-1; i++) {
struct plot_data *entry = pi->entry+i;
int val;
- val = entry[-2].val + 2*entry[-1].val + 3*entry[0].val + 2*entry[1].val + entry[2].val;
- entry->smoothed = (val+4) / 9;
+ if (i < nr-2) {
+ val = entry[-2].val + 2*entry[-1].val + 3*entry[0].val + 2*entry[1].val + entry[2].val;
+ entry->smoothed = (val+4) / 9;
+ }
+ /* vertical velocity in mm/sec */
+ if (entry[0].sec - entry[-1].sec) {
+ val = (entry[0].val - entry[-1].val) / (entry[0].sec - entry[-1].sec);
+ if (val < -304) /* ascent faster than -60ft/min */
+ entry->velocity = CRAZY;
+ else if (val < -152) /* above -30ft/min */
+ entry->velocity = FAST;
+ else if (val < -76) /* -15ft/min */
+ entry->velocity = MODERATE;
+ else if (val < -25) /* -5ft/min */
+ entry->velocity = SLOW;
+ else if (val < 25) /* very hard to find data, but it appears that the recommendations
+ for descent are usually about 2x ascent rate; still, we want
+ stable to mean stable */
+ entry->velocity = STABLE;
+ else if (val < 152) /* between 5 and 30ft/min is considered slow */
+ entry->velocity = SLOW;
+ else if (val < 304) /* up to 60ft/min is moderate */
+ entry->velocity = MODERATE;
+ else if (val < 507) /* up to 100ft/min is fast */
+ entry->velocity = FAST;
+ else /* more than that is just crazy - you'll blow your ears out */
+ entry->velocity = CRAZY;
+ } else
+ entry->velocity = STABLE;
}
/* One-, two- and three-minute minmax data */
projects / ext / subsurface.git / blobdiff