}
+void vik_track_set_name(VikTrack *tr, const gchar *name)
+{
+ if ( tr->name )
+ g_free ( tr->name );
+
+ if ( name && name[0] != '\0' )
+ tr->name = g_strdup(name);
+ else
+ tr->name = NULL;
+}
+
void vik_track_set_comment(VikTrack *tr, const gchar *comment)
{
if ( tr->comment )
if ( tr->ref_count-- > 1 )
return;
+ if ( tr->name )
+ g_free ( tr->name );
if ( tr->comment )
g_free ( tr->comment );
g_list_foreach ( tr->trackpoints, (GFunc) g_free, NULL );
new_tr->trackpoints = g_list_append ( new_tr->trackpoints, new_tp );
tp_iter = tp_iter->next;
}
+ vik_track_set_name(new_tr,tr->name);
vik_track_set_comment(new_tr,tr->comment);
return new_tr;
}
iter->prev->next = NULL;
iter->prev = NULL;
rv[i] = vik_track_new();
+ // TODO: consider new naming strategy here
+ if ( tr->name )
+ vik_track_set_name ( rv[i], tr->name );
if ( tr->comment )
vik_track_set_comment ( rv[i], tr->comment );
rv[i]->visible = tr->visible;
return (time == 0) ? 0 : ABS(len/time);
}
+/**
+ * Based on a simple average speed, but with a twist - to give a moving average.
+ * . GPSs often report a moving average in their statistics output
+ * . bicycle speedos often don't factor in time when stopped - hence reporting a moving average for speed
+ *
+ * Often GPS track will record every second but not when stationary
+ * This method doesn't use samples that differ over the specified time limit - effectively skipping that time chunk from the total time
+ *
+ * Suggest to use 60 seconds as the stop length (as the default used in the TrackWaypoint draw stops factor)
+ */
+gdouble vik_track_get_average_speed_moving (const VikTrack *tr, int stop_length_seconds)
+{
+ gdouble len = 0.0;
+ guint32 time = 0;
+ if ( tr->trackpoints )
+ {
+ GList *iter = tr->trackpoints->next;
+ while (iter)
+ {
+ if ( VIK_TRACKPOINT(iter->data)->has_timestamp &&
+ VIK_TRACKPOINT(iter->prev->data)->has_timestamp &&
+ (! VIK_TRACKPOINT(iter->data)->newsegment) )
+ {
+ if ( ( VIK_TRACKPOINT(iter->data)->timestamp - VIK_TRACKPOINT(iter->prev->data)->timestamp ) < stop_length_seconds ) {
+ len += vik_coord_diff ( &(VIK_TRACKPOINT(iter->data)->coord),
+ &(VIK_TRACKPOINT(iter->prev->data)->coord) );
+
+ time += ABS(VIK_TRACKPOINT(iter->data)->timestamp - VIK_TRACKPOINT(iter->prev->data)->timestamp);
+ }
+ }
+ iter = iter->next;
+ }
+ }
+ return (time == 0) ? 0 : ABS(len/time);
+}
+
gdouble vik_track_get_max_speed(const VikTrack *tr)
{
gdouble maxspeed = 0.0, speed = 0.0;
**/
if ( ignore_it )
- pts[current_chunk] = VIK_DEFAULT_ALTITUDE;
+ // Seemly can't determine average for this section - so use last known good value (much better than just sticking in zero)
+ pts[current_chunk] = altitude1;
else
pts[current_chunk] = altitude1 + (altitude2-altitude1)*((dist_along_seg - (chunk_length/2))/current_seg_length);
/* final seg */
dist_along_seg = chunk_length - current_dist;
- if ( ignore_it || !iter->next ) {
+ if ( ignore_it || ( iter && !iter->next ) ) {
pts[current_chunk] = current_area_under_curve / current_dist;
if (!iter->next) {
int i;
*up = *down = VIK_DEFAULT_ALTITUDE;
}
+gdouble *vik_track_make_gradient_map ( const VikTrack *tr, guint16 num_chunks )
+{
+ gdouble *pts;
+ gdouble *altitudes;
+ gdouble total_length, chunk_length, current_gradient;
+ gdouble altitude1, altitude2;
+ guint16 current_chunk;
+
+ g_assert ( num_chunks < 16000 );
+
+ total_length = vik_track_get_length_including_gaps ( tr );
+ chunk_length = total_length / num_chunks;
+
+ /* Zero chunk_length (eg, track of 2 tp with the same loc) will cause crash */
+ if (chunk_length <= 0) {
+ return NULL;
+ }
+
+ altitudes = vik_track_make_elevation_map (tr, num_chunks);
+ if (altitudes == NULL) {
+ return NULL;
+ }
+
+ current_gradient = 0.0;
+ pts = g_malloc ( sizeof(gdouble) * num_chunks );
+ for (current_chunk = 0; current_chunk < (num_chunks - 1); current_chunk++) {
+ altitude1 = altitudes[current_chunk];
+ altitude2 = altitudes[current_chunk + 1];
+ current_gradient = 100.0 * (altitude2 - altitude1) / chunk_length;
+
+ pts[current_chunk] = current_gradient;
+ }
+
+ pts[current_chunk] = current_gradient;
+
+ return pts;
+}
/* by Alex Foobarian */
gdouble *vik_track_make_speed_map ( const VikTrack *tr, guint16 num_chunks )
}
*(guint *)(b->data + intp) = ntp;
+ len = (tr->name) ? strlen(tr->name)+1 : 0;
+ g_byte_array_append(b, (guint8 *)&len, sizeof(len));
+ if (tr->name) g_byte_array_append(b, (guint8 *)tr->name, len);
+
len = (tr->comment) ? strlen(tr->comment)+1 : 0;
g_byte_array_append(b, (guint8 *)&len, sizeof(len));
if (tr->comment) g_byte_array_append(b, (guint8 *)tr->comment, len);
new_tr->trackpoints = g_list_append(new_tr->trackpoints, new_tp);
}
+ len = *(guint *)data;
+ data += sizeof(len);
+ if (len) {
+ new_tr->name = g_strdup((gchar *)data);
+ }
+ data += len;
+
len = *(guint *)data;
data += sizeof(len);
if (len) {
}
}
+/*
+ * Apply DEM data (if available) - to only the last trackpoint
+ */
+void vik_track_apply_dem_data_last_trackpoint ( VikTrack *tr )
+{
+ gint16 elev;
+ if ( tr->trackpoints ) {
+ /* As in vik_track_apply_dem_data above - use 'best' interpolation method */
+ elev = a_dems_get_elev_by_coord ( &(VIK_TRACKPOINT(g_list_last(tr->trackpoints)->data)->coord), VIK_DEM_INTERPOL_BEST );
+ if ( elev != VIK_DEM_INVALID_ELEVATION )
+ VIK_TRACKPOINT(g_list_last(tr->trackpoints)->data)->altitude = elev;
+ }
+}
+
/* appends t2 to t1, leaving t2 with no trackpoints */
void vik_track_steal_and_append_trackpoints ( VikTrack *t1, VikTrack *t2 )
{
}
/* starting at the end, looks backwards for the last "double point", a duplicate trackpoint.
- * this is indicative of magic scissors continued use. If there is no double point,
- * deletes all the trackpoints. Returns the new end of the track (or the start if
- * there are no double points
+ * If there is no double point, deletes all the trackpoints.
+ * Returns the new end of the track (or the start if there are no double points)
*/
VikCoord *vik_track_cut_back_to_double_point ( VikTrack *tr )
{