Stop plotting the gas / consumption information into the profile

And move the code into info.c where it now belongs Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2024-11-28 13:10:19 +00:00 · 2011-09-16 20:44:40 -07:00 · 2011-09-16 20:44:40 -07:00 · bbf5f960e1
commit bbf5f960e1
parent 6911229278
2 changed files with 83 additions and 90 deletions
--- a/info.c
+++ b/info.c
@ -35,6 +35,86 @@ static char *get_text(GtkTextBuffer *buffer)
 	return gtk_text_buffer_get_text(buffer, &start, &end, FALSE);
 }
 void update_air_info(char *buffer)
 {
 	char markup[120];
 	if (! buffer)
 		buffer = EMPTY_AIRCONSUMPTION;
 	snprintf(markup, sizeof(markup), "<span font=\"8\">%s</span>",buffer);
 	gtk_label_set_markup(GTK_LABEL(airconsumption), markup);
 }
 /*
 * Return air usage (in liters).
 */
 static double calculate_airuse(struct dive *dive)
 {
 	double airuse = 0;
 	int i;
 	for (i = 0; i < MAX_CYLINDERS; i++) {
 		cylinder_t *cyl = dive->cylinder + i;
 		int size = cyl->type.size.mliter;
 		double kilo_atm;
 		if (!size)
 			continue;
 		kilo_atm = (cyl->start.mbar - cyl->end.mbar) / 1013250.0;
 		/* Liters of air at 1 atm == milliliters at 1k atm*/
 		airuse += kilo_atm * size;
 	}
 	return airuse;
 }
 static void update_air_info_frame(struct dive *dive)
 {
 	const double liters_per_cuft = 28.317;
 	const char *unit, *format, *desc;
 	double airuse;
 	char buffer1[80];
 	char buffer2[80];
 	int len;
 	airuse = calculate_airuse(dive);
 	if (!airuse) {
 		update_air_info(NULL);
 		return;
 	}
 	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;
 	}
 	len = snprintf(buffer1, sizeof(buffer1), format, airuse, unit);
 	if (dive->duration.seconds) {
 		double pressure = 1 + (dive->meandepth.mm / 10000.0);
 		double sac = airuse / pressure * 60 / dive->duration.seconds;
 		snprintf(buffer1+len, sizeof(buffer1)-len, 
 				"\nSAC: %4.2f %s/min", sac, unit);
 	}
 	len = 0;
 	desc = dive->cylinder[0].type.description;
 	if (desc || dive->cylinder[0].gasmix.o2.permille) {
 		int o2 = dive->cylinder[0].gasmix.o2.permille / 10;
 		if (!desc)
 			desc = "";
 		if (!o2)
 			o2 = 21;
 		len = snprintf(buffer2, sizeof(buffer2), "%s (%d%%): used ", desc, o2);
 	}
 	snprintf(buffer2+len, sizeof(buffer2)-len, buffer1); 
 	update_air_info(buffer2);
 }
 void flush_dive_info_changes(struct dive *dive)
 {
 	if (!dive)
@ -155,6 +235,8 @@ void show_dive_info(struct dive *dive)
 	text = dive->notes ? : "";
 	gtk_text_buffer_set_text(notes, text, -1);
 	update_air_info_frame(dive);
 }
 static GtkWidget *info_label(GtkWidget *box, const char *str, GtkJustification jtype)
@ -193,16 +275,6 @@ GtkWidget *dive_info_frame(void)
 	return frame;
 }
 void update_air_info(char *buffer)
 {
 	char markup[120];
 	if (! buffer)
 		buffer = EMPTY_AIRCONSUMPTION;
 	snprintf(markup, sizeof(markup), "<span font=\"8\">%s</span>",buffer);
 	gtk_label_set_markup(GTK_LABEL(airconsumption), markup);
 }
 static GtkEntry *text_entry(GtkWidget *box, const char *label)
 {
 	GtkWidget *entry;
--- a/profile.c
+++ b/profile.c
@ -468,83 +468,6 @@ static void plot_cylinder_pressure(struct graphics_context *gc, struct plot_info
 	cairo_stroke(gc->cr);
 }
 /*
 * Return air usage (in liters).
 */
 static double calculate_airuse(struct dive *dive)
 {
 	double airuse = 0;
 	int i;
 	for (i = 0; i < MAX_CYLINDERS; i++) {
 		cylinder_t *cyl = dive->cylinder + i;
 		int size = cyl->type.size.mliter;
 		double kilo_atm;
 		if (!size)
 			continue;
 		kilo_atm = (cyl->start.mbar - cyl->end.mbar) / 1013250.0;
 		/* Liters of air at 1 atm == milliliters at 1k atm*/
 		airuse += kilo_atm * size;
 	}
 	return airuse;
 }
 static void plot_info(struct dive *dive, struct graphics_context *gc)
 {
 	text_render_options_t tro = {10, 0.2, 1.0, 0.2, RIGHT, BOTTOM};
 	const double liters_per_cuft = 28.317;
 	const char *unit, *format, *desc;
 	double airuse;
 	char buffer1[80];
 	char buffer2[80];
 	int len;
 	airuse = calculate_airuse(dive);
 	if (!airuse) {
 		update_air_info(NULL);
 		return;
 	}
 	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;
 	}
 	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, 0.98, 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;
 		if (!desc)
 			desc = "";
 		if (!o2)
 			o2 = 21;
 		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)
 {
 	pressure_t p = {mbar};
@ -788,12 +711,10 @@ void plot(struct graphics_context *gc, int w, int h, struct dive *dive)
 	plot_depth_text(gc, pi);
 	plot_cylinder_pressure_text(gc, pi);
-	/* And info box in the lower right corner.. */
+	/* Bounding box last */
 	gc->leftx = 0; gc->rightx = 1.0;
 	gc->topy = 0; gc->bottomy = 1.0;
 	plot_info(dive, gc);
 	/* Bounding box last */
 	set_source_rgb(gc, 1, 1, 1);
 	move_to(gc, 0, 0);
 	line_to(gc, 0, 1);