* Copyright (C) 2003-2005, Evan Battaglia <gtoevan@gmx.net>
* Copyright (C) 2005-2007, Alex Foobarian <foobarian@gmail.com>
* Copyright (C) 2007-2008, Quy Tonthat <qtonthat@gmail.com>
- * Copyright (C) 2012, Rob Norris <rw_norris@hotmail.com>
+ * Copyright (C) 2012-2014, Rob Norris <rw_norris@hotmail.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
#ifdef HAVE_STRING_H
#include <string.h>
#endif
-#include "coords.h"
-#include "vikcoord.h"
-#include "viktrack.h"
#include "viktrwlayer.h"
#include "viktrwlayer_propwin.h"
-#include "vikwaypoint.h"
-#include "dialog.h"
-#include "globals.h"
#include "dems.h"
-
+#include "viking.h"
#include "vikviewport.h" /* ugh */
-#include "viktreeview.h" /* ugh */
+#include "vikutils.h"
+#include "ui_util.h"
#include <gdk-pixbuf/gdk-pixdata.h>
-#include "viklayer.h" /* ugh */
-#include "vikaggregatelayer.h"
-#include "viklayerspanel.h" /* ugh */
-
-#define PROPWIN_PROFILE_WIDTH 600
-#define PROPWIN_PROFILE_HEIGHT 300
typedef enum {
PROPWIN_GRAPH_TYPE_ELEVATION_DISTANCE,
static const gdouble chunksg[] = {1.0, 2.0, 3.0, 4.0, 5.0, 8.0, 10.0,
12.0, 15.0, 20.0, 25.0, 30.0, 35.0, 40.0, 45.0, 50.0, 75.0,
100.0, 150.0, 200.0, 250.0, 375.0, 500.0,
- 750.0, 1000.0, 10000.0};
+ 750.0, 1000.0, 10000.0, 100000.0};
+// Normally gradients should range up to couple hundred precent at most,
+// however there are possibilities of having points with no altitude after a point with a big altitude
+// (such as places with invalid DEM values in otherwise mountainous regions) - thus giving huge negative gradients.
/* (Hopefully!) Human friendly grid sizes - note no fixed 'ratio' just numbers that look nice...*/
/* As need to cover walking speeds - have many low numbers (but also may go up to airplane speeds!) */
750.0, 1000.0, 10000.0};
/* (Hopefully!) Human friendly distance grid sizes - note no fixed 'ratio' just numbers that look nice...*/
-static const gdouble chunksd[] = {0.1, 0.5, 1.0, 2.0, 3.0, 4.0, 5.0, 8.0, 10.0,
+static const gdouble chunksd[] = {0.1, 0.2, 0.5, 1.0, 2.0, 3.0, 4.0, 5.0, 8.0, 10.0,
15.0, 20.0, 25.0, 40.0, 50.0, 75.0,
100.0, 150.0, 200.0, 250.0, 375.0, 500.0,
750.0, 1000.0, 10000.0};
+// Time chunks in seconds
+static const time_t chunkst[] = {
+ 60, // 1 minute
+ 120, // 2 minutes
+ 300, // 5 minutes
+ 900, // 15 minutes
+ 1800, // half hour
+ 3600, // 1 hour
+ 10800, // 3 hours
+ 21600, // 6 hours
+ 43200, // 12 hours
+ 86400, // 1 day
+ 172800, // 2 days
+ 604800, // 1 week
+ 1209600,// 2 weeks
+ 2419200,// 4 weeks
+};
+
+// Local show settings to restore on dialog opening
+static gboolean show_dem = TRUE;
+static gboolean show_alt_gps_speed = TRUE;
+static gboolean show_gps_speed = TRUE;
+static gboolean show_gradient_gps_speed = TRUE;
+static gboolean show_dist_speed = FALSE;
+static gboolean show_elev_speed = FALSE;
+static gboolean show_elev_dem = FALSE;
+static gboolean show_sd_gps_speed = TRUE;
+
typedef struct _propsaved {
gboolean saved;
GdkImage *img;
gboolean configure_dialog;
VikTrwLayer *vtl;
VikTrack *tr;
- gpointer trk_id;
VikViewport *vvp;
VikLayersPanel *vlp;
gint profile_width;
GtkWidget *w_time_end;
GtkWidget *w_time_dur;
GtkWidget *w_color;
+ GtkWidget *w_namelabel;
+ GtkWidget *w_number_distlabels;
GtkWidget *w_cur_dist; /*< Current distance */
GtkWidget *w_cur_elevation;
GtkWidget *w_cur_gradient_dist; /*< Current distance on gradient graph */
GtkWidget *w_cur_gradient_gradient; /*< Current gradient on gradient graph */
- GtkWidget *w_cur_time; /*< Current time */
+ GtkWidget *w_cur_time; /*< Current track time */
+ GtkWidget *w_cur_time_real; /*< Actual time as on a clock */
GtkWidget *w_cur_speed;
GtkWidget *w_cur_dist_dist; /*< Current distance on distance graph */
- GtkWidget *w_cur_dist_time; /*< Current time on distance graph */
+ GtkWidget *w_cur_dist_time; /*< Current track time on distance graph */
+ GtkWidget *w_cur_dist_time_real; // Clock time
GtkWidget *w_cur_elev_elev;
- GtkWidget *w_cur_elev_time;
+ GtkWidget *w_cur_elev_time; // Track time
+ GtkWidget *w_cur_elev_time_real; // Clock time
GtkWidget *w_cur_speed_dist;
GtkWidget *w_cur_speed_speed;
GtkWidget *w_show_dem;
GtkWidget *w_show_gradient_gps_speed;
GtkWidget *w_show_dist_speed;
GtkWidget *w_show_elev_speed;
+ GtkWidget *w_show_elev_dem;
GtkWidget *w_show_sd_gps_speed;
gdouble track_length;
gdouble track_length_inc_gaps;
gboolean is_marker_drawn;
VikTrackpoint *blob_tp;
gboolean is_blob_drawn;
+ time_t duration;
+ gchar *tz; // TimeZone at track's location
} PropWidgets;
static PropWidgets *prop_widgets_new()
}
}
-#define MARGIN 70
+#define MARGIN_X 70
+#define MARGIN_Y 20
#define LINES 5
/**
+ * get_new_min_and_chunk_index:
* Returns via pointers:
- * the new minimum value to be used for the altitude graph
- * the index in to the altitudes chunk sizes array (ci = Chunk Index)
+ * the new minimum value to be used for the graph
+ * the index in to the chunk sizes array (ci = Chunk Index)
*/
-static void get_new_min_and_chunk_index_altitude (gdouble mina, gdouble maxa, gdouble *new_min, gint *ci)
+static void get_new_min_and_chunk_index (gdouble mina, gdouble maxa, const gdouble *chunks, size_t chunky, gdouble *new_min, gint *ci)
{
/* Get unitized chunk */
/* Find suitable chunk index */
*ci = 0;
- gdouble diffa_chunk = (maxa - mina)/LINES;
+ gdouble diff_chunk = (maxa - mina)/LINES;
/* Loop through to find best match */
- while (diffa_chunk > chunksa[*ci]) {
+ while (diff_chunk > chunks[*ci]) {
(*ci)++;
/* Last Resort Check */
- if ( *ci == sizeof(chunksa)/sizeof(chunksa[0]) )
+ if ( *ci == chunky ) {
+ // Use previous value and exit loop
+ (*ci)--;
break;
+ }
}
/* Ensure adjusted minimum .. maximum covers mina->maxa */
// Now work out adjusted minimum point to the nearest lowest chunk divisor value
// When negative ensure logic uses lowest value
if ( mina < 0 )
- *new_min = (gdouble) ( ( (gint)(mina - chunksa[*ci]) / (gint)chunksa[*ci] ) * (gint)chunksa[*ci] );
+ *new_min = (gdouble) ( (gint)((mina - chunks[*ci]) / chunks[*ci]) * chunks[*ci] );
else
- *new_min = (gdouble) ( ( (gint)mina / (gint)chunksa[*ci] ) * (gint)chunksa[*ci] );
+ *new_min = (gdouble) ( (gint)(mina / chunks[*ci]) * chunks[*ci] );
// Range not big enough - as new minimum has lowered
- if ((*new_min + (chunksa[*ci] * LINES) < maxa)) {
+ if ((*new_min + (chunks[*ci] * LINES) < maxa)) {
// Next chunk should cover it
- if ( *ci < sizeof(chunksa)/sizeof(chunksa[0]) ) {
+ if ( *ci < chunky-1 ) {
(*ci)++;
// Remember to adjust the minimum too...
if ( mina < 0 )
- *new_min = (gdouble) ( ( (gint)(mina - chunksa[*ci]) / (gint)chunksa[*ci] ) * (gint)chunksa[*ci] );
+ *new_min = (gdouble) ( (gint)((mina - chunks[*ci]) / chunks[*ci]) * chunks[*ci] );
else
- *new_min = (gdouble) ( ( (gint)mina / (gint)chunksa[*ci] ) * (gint)chunksa[*ci] );
+ *new_min = (gdouble) ( (gint)(mina / chunks[*ci]) * chunks[*ci] );
}
}
}
-/**
- * Returns via pointers:
- * the new minimum value to be used for the altitude graph
- * the index in to the altitudes chunk sizes array (ci = Chunk Index)
- */
-static void get_new_min_and_chunk_index_gradient (gdouble mina, gdouble maxa, gdouble *new_min, gint *ci)
+static guint get_time_chunk_index (time_t duration)
{
- /* Get unitized chunk */
- /* Find suitable chunk index */
- *ci = 0;
- gdouble diffa_chunk = (maxa - mina)/LINES;
-
- /* Loop through to find best match */
- while (diffa_chunk > chunksg[*ci]) {
- (*ci)++;
- /* Last Resort Check */
- if ( *ci == sizeof(chunksg)/sizeof(chunksg[0]) )
+ // Grid split
+ time_t myduration = duration / LINES;
+
+ // Search nearest chunk index
+ guint ci = 0;
+ guint last_chunk = G_N_ELEMENTS(chunkst);
+
+ // Loop through to find best match
+ while (myduration > chunkst[ci]) {
+ ci++;
+ // Last Resort Check
+ if ( ci == last_chunk )
break;
}
+ // Use previous value
+ if ( ci != 0 )
+ ci--;
- /* Ensure adjusted minimum .. maximum covers mina->maxa */
-
- // Now work out adjusted minimum point to the nearest lowest chunk divisor value
- // When negative ensure logic uses lowest value
- if ( mina < 0 )
- *new_min = (gdouble) ( ( (gint)(mina - chunksg[*ci]) / (gint)chunksg[*ci] ) * (gint)chunksg[*ci] );
- else
- *new_min = (gdouble) ( ( (gint)mina / (gint)chunksg[*ci] ) * (gint)chunksg[*ci] );
-
- // Range not big enough - as new minimum has lowered
- if ((*new_min + (chunksg[*ci] * LINES) < maxa)) {
- // Next chunk should cover it
- if ( *ci < sizeof(chunksg)/sizeof(chunksg[0]) ) {
- (*ci)++;
- // Remember to adjust the minimum too...
- if ( mina < 0 )
- *new_min = (gdouble) ( ( (gint)(mina - chunksg[*ci]) / (gint)chunksg[*ci] ) * (gint)chunksg[*ci] );
- else
- *new_min = (gdouble) ( ( (gint)mina / (gint)chunksg[*ci] ) * (gint)chunksg[*ci] );
- }
- }
+ return ci;
}
/**
- * Returns via pointers:
- * the new minimum value to be used for the appropriate graph
- * the index in to that array (ci = Chunk Index)
+ *
*/
-static void get_new_min_and_chunk_index (gdouble mins, gdouble maxs, const gdouble *chunks, size_t chunky, gdouble *new_min, gint *ci)
+static guint get_distance_chunk_index (gdouble length)
{
- *ci = 0;
- gdouble diff_chunk = (maxs - mins)/LINES;
-
- /* Loop through to find best match */
- while (diff_chunk > chunks[*ci]) {
- (*ci)++;
- /* Last Resort Check */
- if ( *ci == chunky )
+ // Grid split
+ gdouble mylength = length / LINES;
+
+ // Search nearest chunk index
+ guint ci = 0;
+ guint last_chunk = G_N_ELEMENTS(chunksd);
+
+ // Loop through to find best match
+ while (mylength > chunksd[ci]) {
+ ci++;
+ // Last Resort Check
+ if ( ci == last_chunk )
break;
}
- *new_min = (gdouble) ( (gint)((mins / chunks[*ci] ) * chunks[*ci]) );
+ // Use previous value
+ if ( ci != 0 )
+ ci--;
- // Speeds are never negative so don't need to worry about a negative new minimum
+ return ci;
}
static VikTrackpoint *set_center_at_graph_position(gdouble event_x,
gint PROFILE_WIDTH)
{
VikTrackpoint *trackpoint;
- gdouble x = event_x - img_width / 2 + PROFILE_WIDTH / 2 - MARGIN / 2;
+ gdouble x = event_x - img_width / 2 + PROFILE_WIDTH / 2 - MARGIN_X / 2;
if (x < 0)
x = 0;
if (x > PROFILE_WIDTH)
if ( trackpoint ) {
VikCoord coord = trackpoint->coord;
if ( vlp ) {
- vik_viewport_set_center_coord ( vik_layers_panel_get_viewport(vlp), &coord );
+ vik_viewport_set_center_coord ( vik_layers_panel_get_viewport(vlp), &coord, TRUE );
vik_layers_panel_emit_update ( vlp );
}
else {
/* since vlp not set, vvp should be valid instead! */
if ( vvp )
- vik_viewport_set_center_coord ( vvp, &coord );
+ vik_viewport_set_center_coord ( vvp, &coord, TRUE );
vik_layer_emit_update ( VIK_LAYER(vtl) );
}
}
/* Restore previously saved image */
if (saved_img->saved) {
- gdk_draw_image(GDK_DRAWABLE(pix), gc, saved_img->img, 0, 0, 0, 0, MARGIN+PROFILE_WIDTH, PROFILE_HEIGHT);
+ gdk_draw_image(GDK_DRAWABLE(pix), gc, saved_img->img, 0, 0, 0, 0, MARGIN_X+PROFILE_WIDTH, MARGIN_Y+PROFILE_HEIGHT);
saved_img->saved = FALSE;
}
// ATM always save whole image - as anywhere could have changed
if (saved_img->img)
- gdk_drawable_copy_to_image(GDK_DRAWABLE(pix), saved_img->img, 0, 0, 0, 0, MARGIN+PROFILE_WIDTH, PROFILE_HEIGHT);
+ gdk_drawable_copy_to_image(GDK_DRAWABLE(pix), saved_img->img, 0, 0, 0, 0, MARGIN_X+PROFILE_WIDTH, MARGIN_Y+PROFILE_HEIGHT);
else
- saved_img->img = gdk_drawable_copy_to_image(GDK_DRAWABLE(pix), saved_img->img, 0, 0, 0, 0, MARGIN+PROFILE_WIDTH, PROFILE_HEIGHT);
+ saved_img->img = gdk_drawable_copy_to_image(GDK_DRAWABLE(pix), saved_img->img, 0, 0, 0, 0, MARGIN_X+PROFILE_WIDTH, MARGIN_Y+PROFILE_HEIGHT);
saved_img->saved = TRUE;
- if ((marker_x >= MARGIN) && (marker_x < (PROFILE_WIDTH + MARGIN))) {
- gdk_draw_line (GDK_DRAWABLE(pix), gc, marker_x, 0, marker_x, image->allocation.height);
+ if ((marker_x >= MARGIN_X) && (marker_x < (PROFILE_WIDTH + MARGIN_X))) {
+ gdk_draw_line (GDK_DRAWABLE(pix), gc, marker_x, MARGIN_Y, marker_x, PROFILE_HEIGHT + MARGIN_Y);
*marker_drawn = TRUE;
}
else
*marker_drawn = FALSE;
// Draw a square blob to indicate where we are on track for this graph
- if ( (blob_x >= MARGIN) && (blob_x < (PROFILE_WIDTH + MARGIN)) && (blob_y < PROFILE_HEIGHT) ) {
+ if ( (blob_x >= MARGIN_X) && (blob_x < (PROFILE_WIDTH + MARGIN_X)) && (blob_y < PROFILE_HEIGHT+MARGIN_Y) ) {
gdk_draw_rectangle (GDK_DRAWABLE(pix), gc, TRUE, blob_x-3, blob_y-3, 6, 6);
*blob_drawn = TRUE;
}
graph_type == PROPWIN_GRAPH_TYPE_DISTANCE_TIME ||
graph_type == PROPWIN_GRAPH_TYPE_ELEVATION_TIME );
- VikTrackpoint *trackpoint = set_center_at_graph_position(event->x, event_box->allocation.width, widgets->vtl, widgets->vlp, widgets->vvp, widgets->tr, is_time_graph, widgets->profile_width);
+ GtkAllocation allocation;
+ gtk_widget_get_allocation ( event_box, &allocation );
+
+ VikTrackpoint *trackpoint = set_center_at_graph_position(event->x, allocation.width, widgets->vtl, widgets->vlp, widgets->vvp, widgets->tr, is_time_graph, widgets->profile_width);
// Unable to get the point so give up
if ( trackpoint == NULL ) {
gtk_dialog_set_response_sensitive(GTK_DIALOG(widgets->dialog), VIK_TRW_LAYER_PROPWIN_SPLIT_MARKER, FALSE);
pc = tp_percentage_by_distance ( widgets->tr, trackpoint, widgets->track_length_inc_gaps );
if (!isnan(pc)) {
- gdouble marker_x = (pc * widgets->profile_width) + MARGIN;
+ gdouble marker_x = (pc * widgets->profile_width) + MARGIN_X;
save_image_and_draw_graph_marks(image,
marker_x,
gtk_widget_get_style(window)->black_gc,
else
mouse_x = event->x;
- gdouble x = mouse_x - event_box->allocation.width / 2 + widgets->profile_width / 2 - MARGIN / 2;
+ GtkAllocation allocation;
+ gtk_widget_get_allocation ( event_box, &allocation );
+
+ gdouble x = mouse_x - allocation.width / 2 + widgets->profile_width / 2 - MARGIN_X / 2;
if (x < 0)
x = 0;
if (x > widgets->profile_width)
case VIK_UNITS_DISTANCE_MILES:
g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f miles", VIK_METERS_TO_MILES(meters_from_start) );
break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f NM", VIK_METERS_TO_NAUTICAL_MILES(meters_from_start) );
+ break;
default:
g_critical("Houston, we've had a problem. distance=%d", dist_units);
}
if (widgets->is_marker_drawn) {
gdouble pc = tp_percentage_by_distance ( widgets->tr, widgets->marker_tp, widgets->track_length_inc_gaps );
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- MARGIN+x,
- y_blob,
+ MARGIN_X+x,
+ MARGIN_Y+y_blob,
&widgets->elev_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
else
mouse_x = event->x;
- gdouble x = mouse_x - event_box->allocation.width / 2 + widgets->profile_width / 2 - MARGIN / 2;
+ GtkAllocation allocation;
+ gtk_widget_get_allocation ( event_box, &allocation );
+
+ gdouble x = mouse_x - allocation.width / 2 + widgets->profile_width / 2 - MARGIN_X / 2;
if (x < 0)
x = 0;
if (x > widgets->profile_width)
case VIK_UNITS_DISTANCE_MILES:
g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f miles", VIK_METERS_TO_MILES(meters_from_start) );
break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f NM", VIK_METERS_TO_NAUTICAL_MILES(meters_from_start) );
+ break;
default:
g_critical("Houston, we've had a problem. distance=%d", dist_units);
}
if (widgets->is_marker_drawn) {
gdouble pc = tp_percentage_by_distance ( widgets->tr, widgets->marker_tp, widgets->track_length_inc_gaps );
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- MARGIN+x,
- y_blob,
+ MARGIN_X+x,
+ MARGIN_Y+y_blob,
&widgets->gradient_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
g_list_free(child);
}
+//
+static void time_label_update (GtkWidget *widget, time_t seconds_from_start)
+{
+ static gchar tmp_buf[20];
+ guint h = seconds_from_start/3600;
+ guint m = (seconds_from_start - h*3600)/60;
+ guint s = seconds_from_start - (3600*h) - (60*m);
+ g_snprintf(tmp_buf, sizeof(tmp_buf), "%02d:%02d:%02d", h, m, s);
+ gtk_label_set_text(GTK_LABEL(widget), tmp_buf);
+}
+
+//
+static void real_time_label_update ( PropWidgets *widgets, GtkWidget *widget, VikTrackpoint *trackpoint)
+{
+ static gchar tmp_buf[64];
+ if ( trackpoint->has_timestamp ) {
+ // Alternatively could use %c format but I prefer a slightly more compact form here
+ // The full date can of course be seen on the Statistics tab
+ strftime (tmp_buf, sizeof(tmp_buf), "%X %x %Z", localtime(&(trackpoint->timestamp)));
+ }
+ else
+ g_snprintf (tmp_buf, sizeof(tmp_buf), _("No Data"));
+ gtk_label_set_text(GTK_LABEL(widget), tmp_buf);
+}
+
void track_vt_move( GtkWidget *event_box, GdkEventMotion *event, PropWidgets *widgets )
{
int mouse_x, mouse_y;
else
mouse_x = event->x;
- gdouble x = mouse_x - event_box->allocation.width / 2 + widgets->profile_width / 2 - MARGIN / 2;
+ GtkAllocation allocation;
+ gtk_widget_get_allocation ( event_box, &allocation );
+ gdouble x = mouse_x - allocation.width / 2 + widgets->profile_width / 2 - MARGIN_X / 2;
if (x < 0)
x = 0;
if (x > widgets->profile_width)
time_t seconds_from_start;
VikTrackpoint *trackpoint = vik_track_get_closest_tp_by_percentage_time ( widgets->tr, (gdouble) x / widgets->profile_width, &seconds_from_start );
if (trackpoint && widgets->w_cur_time) {
- static gchar tmp_buf[20];
- guint h, m, s;
- h = seconds_from_start/3600;
- m = (seconds_from_start - h*3600)/60;
- s = seconds_from_start - (3600*h) - (60*m);
- g_snprintf(tmp_buf, sizeof(tmp_buf), "%02d:%02d:%02d", h, m, s);
+ time_label_update ( widgets->w_cur_time, seconds_from_start );
+ }
- gtk_label_set_text(GTK_LABEL(widgets->w_cur_time), tmp_buf);
+ if (trackpoint && widgets->w_cur_time_real) {
+ real_time_label_update ( widgets, widgets->w_cur_time_real, trackpoint );
}
gint ix = (gint)x;
if (widgets->is_marker_drawn) {
gdouble pc = tp_percentage_by_time ( widgets->tr, widgets->marker_tp );
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- MARGIN+x,
- y_blob,
+ MARGIN_X+x,
+ MARGIN_Y+y_blob,
&widgets->speed_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
else
mouse_x = event->x;
- gdouble x = mouse_x - event_box->allocation.width / 2 + widgets->profile_width / 2 - MARGIN / 2;
+ GtkAllocation allocation;
+ gtk_widget_get_allocation ( event_box, &allocation );
+
+ gdouble x = mouse_x - allocation.width / 2 + widgets->profile_width / 2 - MARGIN_X / 2;
if (x < 0)
x = 0;
if (x > widgets->profile_width)
time_t seconds_from_start;
VikTrackpoint *trackpoint = vik_track_get_closest_tp_by_percentage_time ( widgets->tr, (gdouble) x / widgets->profile_width, &seconds_from_start );
if (trackpoint && widgets->w_cur_dist_time) {
- static gchar tmp_buf[20];
- guint h, m, s;
- h = seconds_from_start/3600;
- m = (seconds_from_start - h*3600)/60;
- s = seconds_from_start - (3600*h) - (60*m);
- g_snprintf(tmp_buf, sizeof(tmp_buf), "%02d:%02d:%02d", h, m, s);
+ time_label_update ( widgets->w_cur_dist_time, seconds_from_start );
+ }
- gtk_label_set_text(GTK_LABEL(widgets->w_cur_dist_time), tmp_buf);
+ if (trackpoint && widgets->w_cur_dist_time_real) {
+ real_time_label_update ( widgets, widgets->w_cur_dist_time_real, trackpoint );
}
gint ix = (gint)x;
if (trackpoint && widgets->w_cur_dist_dist) {
static gchar tmp_buf[20];
- if ( a_vik_get_units_distance () == VIK_UNITS_DISTANCE_MILES )
+ switch ( a_vik_get_units_distance () ) {
+ case VIK_UNITS_DISTANCE_MILES:
g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f miles", widgets->distances[ix]);
- else
+ break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f NM", widgets->distances[ix]);
+ break;
+ default:
g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f km", widgets->distances[ix]);
+ break;
+ }
gtk_label_set_text(GTK_LABEL(widgets->w_cur_dist_dist), tmp_buf);
}
if (widgets->is_marker_drawn) {
gdouble pc = tp_percentage_by_time ( widgets->tr, widgets->marker_tp );
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- MARGIN+x,
- y_blob,
+ MARGIN_X+x,
+ MARGIN_Y+y_blob,
&widgets->dist_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
else
mouse_x = event->x;
- gdouble x = mouse_x - event_box->allocation.width / 2 + widgets->profile_width / 2 - MARGIN / 2;
+ GtkAllocation allocation;
+ gtk_widget_get_allocation ( event_box, &allocation );
+
+ gdouble x = mouse_x - allocation.width / 2 + widgets->profile_width / 2 - MARGIN_X / 2;
if (x < 0)
x = 0;
if (x > widgets->profile_width)
time_t seconds_from_start;
VikTrackpoint *trackpoint = vik_track_get_closest_tp_by_percentage_time ( widgets->tr, (gdouble) x / widgets->profile_width, &seconds_from_start );
if (trackpoint && widgets->w_cur_elev_time) {
- static gchar tmp_buf[20];
- guint h, m, s;
- h = seconds_from_start/3600;
- m = (seconds_from_start - h*3600)/60;
- s = seconds_from_start - (3600*h) - (60*m);
- g_snprintf(tmp_buf, sizeof(tmp_buf), "%02d:%02d:%02d", h, m, s);
+ time_label_update ( widgets->w_cur_elev_time, seconds_from_start );
+ }
- gtk_label_set_text(GTK_LABEL(widgets->w_cur_elev_time), tmp_buf);
+ if (trackpoint && widgets->w_cur_elev_time_real) {
+ real_time_label_update ( widgets, widgets->w_cur_elev_time_real, trackpoint );
}
gint ix = (gint)x;
if (widgets->is_marker_drawn) {
gdouble pc = tp_percentage_by_time ( widgets->tr, widgets->marker_tp );
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- MARGIN+x,
- y_blob,
+ MARGIN_X+x,
+ MARGIN_Y+y_blob,
&widgets->elev_time_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
else
mouse_x = event->x;
- gdouble x = mouse_x - event_box->allocation.width / 2 + widgets->profile_width / 2 - MARGIN / 2;
+ GtkAllocation allocation;
+ gtk_widget_get_allocation ( event_box, &allocation );
+
+ gdouble x = mouse_x - allocation.width / 2 + widgets->profile_width / 2 - MARGIN_X / 2;
if (x < 0)
x = 0;
if (x > widgets->profile_width)
case VIK_UNITS_DISTANCE_MILES:
g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f miles", VIK_METERS_TO_MILES(meters_from_start) );
break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f NM", VIK_METERS_TO_NAUTICAL_MILES(meters_from_start) );
+ break;
default:
g_critical("Houston, we've had a problem. distance=%d", dist_units);
}
if (widgets->is_marker_drawn) {
gdouble pc = tp_percentage_by_distance ( widgets->tr, widgets->marker_tp, widgets->track_length_inc_gaps );
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- MARGIN+x,
- y_blob,
+ MARGIN_X+x,
+ MARGIN_Y+y_blob,
&widgets->speed_dist_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
max_speed = max_speed_in * 110 / 100;
gdouble dist = 0;
+ gint h2 = height + MARGIN_Y; // Adjust height for x axis labelling offset
+ gint achunk = chunksa[cia]*LINES;
+
for (iter = tr->trackpoints->next; iter; iter = iter->next) {
int x;
dist += vik_coord_diff ( &(VIK_TRACKPOINT(iter->data)->coord),
elev = VIK_METERS_TO_FEET(elev);
// No conversion needed if already in metres
- // consider chunk size
- int y_alt = height - ((height * elev)/(chunksa[cia]*LINES) );
- gdk_draw_rectangle(GDK_DRAWABLE(pix), alt_gc, TRUE, x-2, y_alt-2, 4, 4);
+ // consider chunk size
+ int y_alt = h2 - ((height * elev)/achunk );
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), alt_gc, TRUE, x-2, y_alt-2, 4, 4);
}
}
if (do_speed) {
// This is just a speed indicator - no actual values can be inferred by user
if (!isnan(VIK_TRACKPOINT(iter->data)->speed)) {
- int y_speed = height - (height * VIK_TRACKPOINT(iter->data)->speed)/max_speed;
- gdk_draw_rectangle(GDK_DRAWABLE(pix), speed_gc, TRUE, x-2, y_speed-2, 4, 4);
+ int y_speed = h2 - (height * VIK_TRACKPOINT(iter->data)->speed)/max_speed;
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), speed_gc, TRUE, x-2, y_speed-2, 4, 4);
}
}
}
}
+/**
+ * draw_grid_y:
+ *
+ * A common way to draw the grid with y axis labels
+ *
+ */
+static void draw_grid_y ( GtkWidget *window, GtkWidget *image, PropWidgets *widgets, GdkPixmap *pix, gchar *ss, gint i )
+{
+ PangoLayout *pl = gtk_widget_create_pango_layout (GTK_WIDGET(image), NULL);
+
+ pango_layout_set_alignment (pl, PANGO_ALIGN_RIGHT);
+ pango_layout_set_font_description (pl, gtk_widget_get_style(window)->font_desc);
+
+ gchar *label_markup = g_strdup_printf ( "<span size=\"small\">%s</span>", ss );
+ pango_layout_set_markup ( pl, label_markup, -1 );
+ g_free ( label_markup );
+
+ int w, h;
+ pango_layout_get_pixel_size ( pl, &w, &h );
+
+ gdk_draw_layout ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->fg_gc[0],
+ MARGIN_X-w-3,
+ CLAMP((int)i*widgets->profile_height/LINES - h/2 + MARGIN_Y, 0, widgets->profile_height-h+MARGIN_Y),
+ pl );
+ g_object_unref ( G_OBJECT ( pl ) );
+
+ gdk_draw_line ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[0],
+ MARGIN_X, MARGIN_Y + widgets->profile_height/LINES * i,
+ MARGIN_X + widgets->profile_width, MARGIN_Y + widgets->profile_height/LINES * i );
+}
+
+/**
+ * draw_grid_x_time:
+ *
+ * A common way to draw the grid with x axis labels for time graphs
+ *
+ */
+static void draw_grid_x_time ( GtkWidget *window, GtkWidget *image, PropWidgets *widgets, GdkPixmap *pix, guint ii, guint tt, guint xx )
+{
+ gchar *label_markup = NULL;
+ switch (ii) {
+ case 0:
+ case 1:
+ case 2:
+ case 3:
+ // Minutes
+ label_markup = g_strdup_printf ( "<span size=\"small\">%d %s</span>", tt/60, _("mins") );
+ break;
+ case 4:
+ case 5:
+ case 6:
+ case 7:
+ // Hours
+ label_markup = g_strdup_printf ( "<span size=\"small\">%.1f %s</span>", (gdouble)tt/(60*60), _("h") );
+ break;
+ case 8:
+ case 9:
+ case 10:
+ // Days
+ label_markup = g_strdup_printf ( "<span size=\"small\">%.1f %s</span>", (gdouble)tt/(60*60*24), _("d") );
+ break;
+ case 11:
+ case 12:
+ // Weeks
+ label_markup = g_strdup_printf ( "<span size=\"small\">%.1f %s</span>", (gdouble)tt/(60*60*24*7), _("w") );
+ break;
+ case 13:
+ // 'Months'
+ label_markup = g_strdup_printf ( "<span size=\"small\">%.1f %s</span>", (gdouble)tt/(60*60*24*28), _("M") );
+ break;
+ default:
+ break;
+ }
+ if ( label_markup ) {
+
+ PangoLayout *pl = gtk_widget_create_pango_layout (GTK_WIDGET(image), NULL);
+ pango_layout_set_font_description (pl, gtk_widget_get_style(window)->font_desc);
+
+ pango_layout_set_markup ( pl, label_markup, -1 );
+ g_free ( label_markup );
+ int ww, hh;
+ pango_layout_get_pixel_size ( pl, &ww, &hh );
+
+ gdk_draw_layout ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->fg_gc[0],
+ MARGIN_X+xx-ww/2, MARGIN_Y/2-hh/2, pl );
+ g_object_unref ( G_OBJECT ( pl ) );
+ }
+
+ gdk_draw_line ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[0],
+ MARGIN_X+xx, MARGIN_Y, MARGIN_X+xx, MARGIN_Y+widgets->profile_height );
+}
+
+/**
+ * draw_grid_x_distance:
+ *
+ * A common way to draw the grid with x axis labels for distance graphs
+ *
+ */
+static void draw_grid_x_distance ( GtkWidget *window, GtkWidget *image, PropWidgets *widgets, GdkPixmap *pix, guint ii, gdouble dd, guint xx, vik_units_distance_t dist_units )
+{
+ gchar *label_markup = NULL;
+ switch ( dist_units ) {
+ case VIK_UNITS_DISTANCE_MILES:
+ if ( ii > 4 )
+ label_markup = g_strdup_printf ( "<span size=\"small\">%d %s</span>", (guint)dd, _("miles") );
+ else
+ label_markup = g_strdup_printf ( "<span size=\"small\">%.1f %s</span>", dd, _("miles") );
+ break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ if ( ii > 4 )
+ label_markup = g_strdup_printf ( "<span size=\"small\">%d %s</span>", (guint)dd, _("NM") );
+ else
+ label_markup = g_strdup_printf ( "<span size=\"small\">%.1f %s</span>", dd, _("NM") );
+ break;
+ default:
+ // VIK_UNITS_DISTANCE_KILOMETRES:
+ if ( ii > 4 )
+ label_markup = g_strdup_printf ( "<span size=\"small\">%d %s</span>", (guint)dd, _("km") );
+ else
+ label_markup = g_strdup_printf ( "<span size=\"small\">%.1f %s</span>", dd, _("km") );
+ break;
+ }
+
+ if ( label_markup ) {
+ PangoLayout *pl = gtk_widget_create_pango_layout (GTK_WIDGET(image), NULL);
+ pango_layout_set_font_description (pl, gtk_widget_get_style(window)->font_desc);
+
+ pango_layout_set_markup ( pl, label_markup, -1 );
+ g_free ( label_markup );
+ int ww, hh;
+ pango_layout_get_pixel_size ( pl, &ww, &hh );
+
+ gdk_draw_layout ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->fg_gc[0],
+ MARGIN_X+xx-ww/2, MARGIN_Y/2-hh/2, pl );
+ g_object_unref ( G_OBJECT ( pl ) );
+ }
+
+ gdk_draw_line ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[0],
+ MARGIN_X+xx, MARGIN_Y, MARGIN_X+xx, MARGIN_Y+widgets->profile_height );
+}
+
+/**
+ * clear the images (scale texts & actual graph)
+ */
+static void clear_images (GdkPixmap *pix, GtkWidget *window, PropWidgets *widgets)
+{
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->bg_gc[0],
+ TRUE, 0, 0, widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y);
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->mid_gc[0],
+ TRUE, 0, 0, widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y);
+}
+
+/**
+ *
+ */
+static void draw_distance_divisions ( GtkWidget *window, GtkWidget *image, GdkPixmap *pix, PropWidgets *widgets, vik_units_distance_t dist_units )
+{
+ // Set to display units from length in metres.
+ gdouble length = widgets->track_length_inc_gaps;
+ switch (dist_units) {
+ case VIK_UNITS_DISTANCE_MILES:
+ length = VIK_METERS_TO_MILES(length);
+ break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ length = VIK_METERS_TO_NAUTICAL_MILES(length);
+ break;
+ default:
+ // KM
+ length = length/1000.0;
+ break;
+ }
+ guint index = get_distance_chunk_index ( length );
+ gdouble dist_per_pixel = length/widgets->profile_width;
+
+ for (guint i=1; chunksd[index]*i <= length; i++) {
+ draw_grid_x_distance ( window, image, widgets, pix, index, chunksd[index]*i, (guint)(chunksd[index]*i/dist_per_pixel), dist_units );
+ }
+}
+
/**
* Draw just the height profile image
*/
static void draw_elevations (GtkWidget *image, VikTrack *tr, PropWidgets *widgets )
{
- GtkWidget *window;
- GdkPixmap *pix;
- gdouble mina, maxa;
guint i;
GdkGC *no_alt_info;
minmax_array(widgets->altitudes, &widgets->min_altitude, &widgets->max_altitude, TRUE, widgets->profile_width);
- get_new_min_and_chunk_index_altitude (widgets->min_altitude, widgets->max_altitude, &widgets->draw_min_altitude, &widgets->cia);
+ get_new_min_and_chunk_index (widgets->min_altitude, widgets->max_altitude, chunksa, G_N_ELEMENTS(chunksa), &widgets->draw_min_altitude, &widgets->cia);
// Assign locally
- mina = widgets->draw_min_altitude;
- maxa = widgets->max_altitude;
+ gdouble mina = widgets->draw_min_altitude;
- window = gtk_widget_get_toplevel (widgets->elev_box);
-
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ GtkWidget *window = gtk_widget_get_toplevel (widgets->elev_box);
+ GdkPixmap *pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
gtk_image_set_from_pixmap ( GTK_IMAGE(image), pix, NULL );
- no_alt_info = gdk_gc_new ( window->window );
+ no_alt_info = gdk_gc_new ( gtk_widget_get_window(window) );
gdk_color_parse ( "yellow", &color );
gdk_gc_set_rgb_fg_color ( no_alt_info, &color);
- /* clear the image */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->bg_gc[0],
- TRUE, 0, 0, MARGIN, widgets->profile_height);
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->mid_gc[0],
- TRUE, MARGIN, 0, widgets->profile_width, widgets->profile_height);
-
+ // Reset before redrawing
+ clear_images (pix, window, widgets);
+
/* draw grid */
for (i=0; i<=LINES; i++) {
- PangoLayout *pl = gtk_widget_create_pango_layout (GTK_WIDGET(image), NULL);
gchar s[32];
- int w, h;
-
- pango_layout_set_alignment (pl, PANGO_ALIGN_RIGHT);
- pango_layout_set_font_description (pl, gtk_widget_get_style(window)->font_desc);
switch (height_units) {
case VIK_UNITS_HEIGHT_METRES:
sprintf(s, "--");
g_critical("Houston, we've had a problem. height=%d", height_units);
}
- pango_layout_set_text(pl, s, -1);
- pango_layout_get_pixel_size (pl, &w, &h);
- gdk_draw_layout(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->fg_gc[0], MARGIN-w-3,
- CLAMP((int)i*widgets->profile_height/LINES - h/2, 0, widgets->profile_height-h), pl);
- gdk_draw_line (GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[0],
- MARGIN, widgets->profile_height/LINES * i, MARGIN + widgets->profile_width, widgets->profile_height/LINES * i);
- g_object_unref ( G_OBJECT ( pl ) );
- pl = NULL;
+ draw_grid_y ( window, image, widgets, pix, s, i );
}
+ draw_distance_divisions ( window, image, pix, widgets, a_vik_get_units_distance() );
+
/* draw elevations */
+ guint height = MARGIN_Y+widgets->profile_height;
for ( i = 0; i < widgets->profile_width; i++ )
if ( widgets->altitudes[i] == VIK_DEFAULT_ALTITUDE )
gdk_draw_line ( GDK_DRAWABLE(pix), no_alt_info,
- i + MARGIN, 0, i + MARGIN, widgets->profile_height );
+ i + MARGIN_X, MARGIN_Y, i + MARGIN_X, height );
else
gdk_draw_line ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[3],
- i + MARGIN, widgets->profile_height, i + MARGIN, widgets->profile_height-widgets->profile_height*(widgets->altitudes[i]-mina)/(chunksa[widgets->cia]*LINES) );
+ i + MARGIN_X, height, i + MARGIN_X, height-widgets->profile_height*(widgets->altitudes[i]-mina)/(chunksa[widgets->cia]*LINES) );
if ( gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON(widgets->w_show_dem)) ||
gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON(widgets->w_show_alt_gps_speed)) ) {
- GdkGC *dem_alt_gc = gdk_gc_new ( window->window );
- GdkGC *gps_speed_gc = gdk_gc_new ( window->window );
+ GdkGC *dem_alt_gc = gdk_gc_new ( gtk_widget_get_window(window) );
+ GdkGC *gps_speed_gc = gdk_gc_new ( gtk_widget_get_window(window) );
gdk_color_parse ( "green", &color );
gdk_gc_set_rgb_fg_color ( dem_alt_gc, &color);
dem_alt_gc,
gps_speed_gc,
mina,
- maxa - mina,
+ widgets->max_altitude - mina,
widgets->max_speed,
widgets->cia,
widgets->profile_width,
widgets->profile_height,
- MARGIN,
+ MARGIN_X,
gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON(widgets->w_show_dem)),
gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON(widgets->w_show_alt_gps_speed)));
}
/* draw border */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN, 0, widgets->profile_width-1, widgets->profile_height-1);
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN_X, MARGIN_Y, widgets->profile_width-1, widgets->profile_height-1);
g_object_unref ( G_OBJECT(pix) );
g_object_unref ( G_OBJECT(no_alt_info) );
int x;
dist += vik_coord_diff ( &(VIK_TRACKPOINT(iter->data)->coord),
&(VIK_TRACKPOINT(iter->prev->data)->coord) );
- x = (width * dist)/total_length + margin;
+ x = (width * dist)/total_length + MARGIN_X;
if (do_speed) {
// This is just a speed indicator - no actual values can be inferred by user
if (!isnan(VIK_TRACKPOINT(iter->data)->speed)) {
*/
static void draw_gradients (GtkWidget *image, VikTrack *tr, PropWidgets *widgets )
{
- GtkWidget *window;
- GdkPixmap *pix;
- gdouble mina;
guint i;
- GdkColor color;
-
// Free previous allocation
if ( widgets->gradients )
g_free ( widgets->gradients );
minmax_array(widgets->gradients, &widgets->min_gradient, &widgets->max_gradient, TRUE, widgets->profile_width);
- get_new_min_and_chunk_index_gradient (widgets->min_gradient, widgets->max_gradient, &widgets->draw_min_gradient, &widgets->cig);
+ get_new_min_and_chunk_index (widgets->min_gradient, widgets->max_gradient, chunksg, G_N_ELEMENTS(chunksg), &widgets->draw_min_gradient, &widgets->cig);
// Assign locally
- mina = widgets->draw_min_gradient;
-
- window = gtk_widget_get_toplevel (widgets->gradient_box);
+ gdouble mina = widgets->draw_min_gradient;
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ GtkWidget *window = gtk_widget_get_toplevel (widgets->gradient_box);
+ GdkPixmap *pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
gtk_image_set_from_pixmap ( GTK_IMAGE(image), pix, NULL );
- /* clear the image */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->bg_gc[0],
- TRUE, 0, 0, MARGIN, widgets->profile_height);
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->mid_gc[0],
- TRUE, MARGIN, 0, widgets->profile_width, widgets->profile_height);
-
+ // Reset before redrawing
+ clear_images (pix, window, widgets);
+
/* draw grid */
for (i=0; i<=LINES; i++) {
- PangoLayout *pl = gtk_widget_create_pango_layout (GTK_WIDGET(image), NULL);
gchar s[32];
- int w, h;
-
- pango_layout_set_alignment (pl, PANGO_ALIGN_RIGHT);
- pango_layout_set_font_description (pl, gtk_widget_get_style(window)->font_desc);
sprintf(s, "%8d%%", (int)(mina + (LINES-i)*chunksg[widgets->cig]));
- pango_layout_set_text(pl, s, -1);
- pango_layout_get_pixel_size (pl, &w, &h);
- gdk_draw_layout(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->fg_gc[0], MARGIN-w-3,
- CLAMP((int)i*widgets->profile_height/LINES - h/2, 0, widgets->profile_height-h), pl);
- gdk_draw_line (GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[0],
- MARGIN, widgets->profile_height/LINES * i, MARGIN + widgets->profile_width, widgets->profile_height/LINES * i);
- g_object_unref ( G_OBJECT ( pl ) );
- pl = NULL;
+ draw_grid_y ( window, image, widgets, pix, s, i );
}
+ draw_distance_divisions ( window, image, pix, widgets, a_vik_get_units_distance() );
+
/* draw gradients */
+ guint height = widgets->profile_height + MARGIN_Y;
for ( i = 0; i < widgets->profile_width; i++ )
gdk_draw_line ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[3],
- i + MARGIN, widgets->profile_height, i + MARGIN, widgets->profile_height-widgets->profile_height*(widgets->gradients[i]-mina)/(chunksg[widgets->cig]*LINES) );
+ i + MARGIN_X, height, i + MARGIN_X, height - widgets->profile_height*(widgets->gradients[i]-mina)/(chunksg[widgets->cig]*LINES) );
if ( gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON(widgets->w_show_gradient_gps_speed)) ) {
- GdkGC *gps_speed_gc = gdk_gc_new ( window->window );
+ GdkGC *gps_speed_gc = gdk_gc_new ( gtk_widget_get_window(window) );
+ GdkColor color;
gdk_color_parse ( "red", &color );
gdk_gc_set_rgb_fg_color ( gps_speed_gc, &color);
widgets->max_speed,
widgets->profile_width,
widgets->profile_height,
- MARGIN,
+ MARGIN_X,
gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON(widgets->w_show_alt_gps_speed)));
g_object_unref ( G_OBJECT(gps_speed_gc) );
}
/* draw border */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN, 0, widgets->profile_width-1, widgets->profile_height-1);
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN_X, MARGIN_Y, widgets->profile_width-1, widgets->profile_height-1);
g_object_unref ( G_OBJECT(pix) );
}
+static void draw_time_lines ( GtkWidget *window, GtkWidget *image, GdkPixmap *pix, PropWidgets *widgets )
+{
+ guint index = get_time_chunk_index ( widgets->duration );
+ gdouble time_per_pixel = (gdouble)(widgets->duration)/widgets->profile_width;
+
+ // If stupidly long track in time - don't bother trying to draw grid lines
+ if ( widgets->duration > chunkst[G_N_ELEMENTS(chunkst)-1]*LINES*LINES )
+ return;
+
+ for (guint i=1; chunkst[index]*i <= widgets->duration; i++) {
+ draw_grid_x_time ( window, image, widgets, pix, index, chunkst[index]*i, (guint)(chunkst[index]*i/time_per_pixel) );
+ }
+}
+
/**
* Draw just the speed (velocity)/time image
*/
static void draw_vt ( GtkWidget *image, VikTrack *tr, PropWidgets *widgets)
{
- GtkWidget *window;
- GdkPixmap *pix;
- gdouble mins;
guint i;
// Free previous allocation
if ( widgets->speeds == NULL )
return;
+ widgets->duration = vik_track_get_duration ( tr );
+ // Negative time or other problem
+ if ( widgets->duration <= 0 )
+ return;
+
// Convert into appropriate units
vik_units_speed_t speed_units = a_vik_get_units_speed ();
switch (speed_units) {
break;
}
- window = gtk_widget_get_toplevel (widgets->speed_box);
-
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ GtkWidget *window = gtk_widget_get_toplevel (widgets->speed_box);
+ GdkPixmap *pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
gtk_image_set_from_pixmap ( GTK_IMAGE(image), pix, NULL );
widgets->min_speed = 0; /* splines sometimes give negative speeds */
/* Find suitable chunk index */
- get_new_min_and_chunk_index (widgets->min_speed, widgets->max_speed, chunkss, sizeof(chunkss)/sizeof(chunkss[0]), &widgets->draw_min_speed, &widgets->cis);
+ get_new_min_and_chunk_index (widgets->min_speed, widgets->max_speed, chunkss, G_N_ELEMENTS(chunkss), &widgets->draw_min_speed, &widgets->cis);
// Assign locally
- mins = widgets->draw_min_speed;
-
- /* clear the image */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->bg_gc[0],
- TRUE, 0, 0, MARGIN, widgets->profile_height);
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->mid_gc[0],
- TRUE, MARGIN, 0, widgets->profile_width, widgets->profile_height);
+ gdouble mins = widgets->draw_min_speed;
+
+ // Reset before redrawing
+ clear_images (pix, window, widgets);
/* draw grid */
for (i=0; i<=LINES; i++) {
- PangoLayout *pl = gtk_widget_create_pango_layout (GTK_WIDGET(image), NULL);
gchar s[32];
- int w, h;
-
- pango_layout_set_alignment (pl, PANGO_ALIGN_RIGHT);
- pango_layout_set_font_description (pl, gtk_widget_get_style(window)->font_desc);
// NB: No need to convert here anymore as numbers are in the appropriate units
switch (speed_units) {
g_critical("Houston, we've had a problem. speed=%d", speed_units);
}
- pango_layout_set_text(pl, s, -1);
- pango_layout_get_pixel_size (pl, &w, &h);
- gdk_draw_layout(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->fg_gc[0], MARGIN-w-3,
- CLAMP((int)i*widgets->profile_height/LINES - h/2, 0, widgets->profile_height-h), pl);
-
- gdk_draw_line (GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[0],
- MARGIN, widgets->profile_height/LINES * i, MARGIN + widgets->profile_width, widgets->profile_height/LINES * i);
- g_object_unref ( G_OBJECT ( pl ) );
- pl = NULL;
+ draw_grid_y ( window, image, widgets, pix, s, i );
}
-
+
+ draw_time_lines ( window, image, pix, widgets );
/* draw speeds */
+ guint height = widgets->profile_height + MARGIN_Y;
for ( i = 0; i < widgets->profile_width; i++ )
gdk_draw_line ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[3],
- i + MARGIN, widgets->profile_height, i + MARGIN, widgets->profile_height-widgets->profile_height*(widgets->speeds[i]-mins)/(chunkss[widgets->cis]*LINES) );
-
+ i + MARGIN_X, height, i + MARGIN_X, height - widgets->profile_height*(widgets->speeds[i]-mins)/(chunkss[widgets->cis]*LINES) );
if ( gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(widgets->w_show_gps_speed)) ) {
- GdkGC *gps_speed_gc = gdk_gc_new ( window->window );
+ GdkGC *gps_speed_gc = gdk_gc_new ( gtk_widget_get_window(window) );
GdkColor color;
gdk_color_parse ( "red", &color );
gdk_gc_set_rgb_fg_color ( gps_speed_gc, &color);
// No need to convert as already in m/s
break;
}
- int x = MARGIN + widgets->profile_width * (VIK_TRACKPOINT(iter->data)->timestamp - beg_time) / dur;
- int y = widgets->profile_height - widgets->profile_height*(gps_speed - mins)/(chunkss[widgets->cis]*LINES);
+ int x = MARGIN_X + widgets->profile_width * (VIK_TRACKPOINT(iter->data)->timestamp - beg_time) / dur;
+ int y = height - widgets->profile_height*(gps_speed - mins)/(chunkss[widgets->cis]*LINES);
gdk_draw_rectangle(GDK_DRAWABLE(pix), gps_speed_gc, TRUE, x-2, y-2, 4, 4);
}
g_object_unref ( G_OBJECT(gps_speed_gc) );
}
/* draw border */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN, 0, widgets->profile_width-1, widgets->profile_height-1);
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN_X, MARGIN_Y, widgets->profile_width-1, widgets->profile_height-1);
g_object_unref ( G_OBJECT(pix) );
}
*/
static void draw_dt ( GtkWidget *image, VikTrack *tr, PropWidgets *widgets )
{
- GtkWidget *window;
- GdkPixmap *pix;
- gdouble maxd;
guint i;
// Free previous allocation
// Convert into appropriate units
vik_units_distance_t dist_units = a_vik_get_units_distance ();
- if ( dist_units == VIK_UNITS_DISTANCE_MILES ) {
- for ( i = 0; i < widgets->profile_width; i++ ) {
- widgets->distances[i] = VIK_METERS_TO_MILES(widgets->distances[i]);
- }
- }
- else {
- // Metres - but want in kms
- for ( i = 0; i < widgets->profile_width; i++ ) {
- widgets->distances[i] = widgets->distances[i]/1000.0;
- }
+ switch ( dist_units ) {
+ case VIK_UNITS_DISTANCE_MILES:
+ for ( i = 0; i < widgets->profile_width; i++ ) {
+ widgets->distances[i] = VIK_METERS_TO_MILES(widgets->distances[i]);
+ }
+ break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ for ( i = 0; i < widgets->profile_width; i++ ) {
+ widgets->distances[i] = VIK_METERS_TO_NAUTICAL_MILES(widgets->distances[i]);
+ }
+ break;
+ default:
+ // Metres - but want in kms
+ for ( i = 0; i < widgets->profile_width; i++ ) {
+ widgets->distances[i] = widgets->distances[i]/1000.0;
+ }
+ break;
}
- window = gtk_widget_get_toplevel (widgets->dist_box);
+ widgets->duration = vik_track_get_duration ( widgets->tr );
+ // Negative time or other problem
+ if ( widgets->duration <= 0 )
+ return;
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ GtkWidget *window = gtk_widget_get_toplevel (widgets->dist_box);
+ GdkPixmap *pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
gtk_image_set_from_pixmap ( GTK_IMAGE(image), pix, NULL );
// easy to work out min / max of distance!
// Assign locally
// mind = 0.0; - Thus not used
- if ( dist_units == VIK_UNITS_DISTANCE_MILES )
+ gdouble maxd;
+ switch ( dist_units ) {
+ case VIK_UNITS_DISTANCE_MILES:
maxd = VIK_METERS_TO_MILES(vik_track_get_length_including_gaps (tr));
- else
+ break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ maxd = VIK_METERS_TO_NAUTICAL_MILES(vik_track_get_length_including_gaps (tr));
+ break;
+ default:
maxd = vik_track_get_length_including_gaps (tr) / 1000.0;
+ break;
+ }
/* Find suitable chunk index */
gdouble dummy = 0.0; // expect this to remain the same! (not that it's used)
- get_new_min_and_chunk_index (0, maxd, chunksd, sizeof(chunksd)/sizeof(chunksd[0]), &dummy, &widgets->cid);
+ get_new_min_and_chunk_index (0, maxd, chunksd, G_N_ELEMENTS(chunksd), &dummy, &widgets->cid);
- /* clear the image */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->bg_gc[0],
- TRUE, 0, 0, MARGIN, widgets->profile_height);
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->mid_gc[0],
- TRUE, MARGIN, 0, widgets->profile_width, widgets->profile_height);
+ // Reset before redrawing
+ clear_images (pix, window, widgets);
/* draw grid */
for (i=0; i<=LINES; i++) {
- PangoLayout *pl = gtk_widget_create_pango_layout (GTK_WIDGET(image), NULL);
gchar s[32];
- int w, h;
- pango_layout_set_alignment (pl, PANGO_ALIGN_RIGHT);
- pango_layout_set_font_description (pl, gtk_widget_get_style(window)->font_desc);
-
- if ( dist_units == VIK_UNITS_DISTANCE_MILES )
+ switch ( dist_units ) {
+ case VIK_UNITS_DISTANCE_MILES:
sprintf(s, _("%.1f miles"), ((LINES-i)*chunksd[widgets->cid]));
- else
+ break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ sprintf(s, _("%.1f NM"), ((LINES-i)*chunksd[widgets->cid]));
+ break;
+ default:
sprintf(s, _("%.1f km"), ((LINES-i)*chunksd[widgets->cid]));
+ break;
+ }
- pango_layout_set_text(pl, s, -1);
- pango_layout_get_pixel_size (pl, &w, &h);
- gdk_draw_layout(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->fg_gc[0], MARGIN-w-3,
- CLAMP((int)i*widgets->profile_height/LINES - h/2, 0, widgets->profile_height-h), pl);
-
- gdk_draw_line (GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[0],
- MARGIN, widgets->profile_height/LINES * i, MARGIN + widgets->profile_width, widgets->profile_height/LINES * i);
- g_object_unref ( G_OBJECT ( pl ) );
- pl = NULL;
+ draw_grid_y ( window, image, widgets, pix, s, i );
}
+ draw_time_lines ( window, image, pix, widgets );
+
/* draw distance */
+ guint height = widgets->profile_height + MARGIN_Y;
for ( i = 0; i < widgets->profile_width; i++ )
gdk_draw_line ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[3],
- i + MARGIN, widgets->profile_height, i + MARGIN, widgets->profile_height-widgets->profile_height*(widgets->distances[i])/(chunksd[widgets->cid]*LINES) );
+ i + MARGIN_X, height, i + MARGIN_X, height - widgets->profile_height*(widgets->distances[i])/(chunksd[widgets->cid]*LINES) );
// Show speed indicator
if ( gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(widgets->w_show_dist_speed)) ) {
- GdkGC *dist_speed_gc = gdk_gc_new ( window->window );
+ GdkGC *dist_speed_gc = gdk_gc_new ( gtk_widget_get_window(window) );
GdkColor color;
gdk_color_parse ( "red", &color );
gdk_gc_set_rgb_fg_color ( dist_speed_gc, &color);
max_speed = widgets->max_speed * 110 / 100;
// This is just an indicator - no actual values can be inferred by user
- gint i;
for ( i = 0; i < widgets->profile_width; i++ ) {
int y_speed = widgets->profile_height - (widgets->profile_height * widgets->speeds[i])/max_speed;
- gdk_draw_rectangle(GDK_DRAWABLE(pix), dist_speed_gc, TRUE, i+MARGIN-2, y_speed-2, 4, 4);
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), dist_speed_gc, TRUE, i+MARGIN_X-2, y_speed-2, 4, 4);
}
g_object_unref ( G_OBJECT(dist_speed_gc) );
}
/* draw border */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN, 0, widgets->profile_width-1, widgets->profile_height-1);
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN_X, MARGIN_Y, widgets->profile_width-1, widgets->profile_height-1);
g_object_unref ( G_OBJECT(pix) );
*/
static void draw_et ( GtkWidget *image, VikTrack *tr, PropWidgets *widgets )
{
- GtkWidget *window;
- GdkPixmap *pix;
- gdouble mina;
guint i;
// Free previous allocation
minmax_array(widgets->ats, &widgets->min_altitude, &widgets->max_altitude, TRUE, widgets->profile_width);
- get_new_min_and_chunk_index_altitude (widgets->min_altitude, widgets->max_altitude, &widgets->draw_min_altitude_time, &widgets->ciat);
+ get_new_min_and_chunk_index (widgets->min_altitude, widgets->max_altitude, chunksa, G_N_ELEMENTS(chunksa), &widgets->draw_min_altitude_time, &widgets->ciat);
// Assign locally
- mina = widgets->draw_min_altitude_time;
+ gdouble mina = widgets->draw_min_altitude_time;
- window = gtk_widget_get_toplevel (widgets->elev_time_box);
+ widgets->duration = vik_track_get_duration ( widgets->tr );
+ // Negative time or other problem
+ if ( widgets->duration <= 0 )
+ return;
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ GtkWidget *window = gtk_widget_get_toplevel (widgets->elev_time_box);
+ GdkPixmap *pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
gtk_image_set_from_pixmap ( GTK_IMAGE(image), pix, NULL );
- /* clear the image */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->bg_gc[0],
- TRUE, 0, 0, MARGIN, widgets->profile_height);
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->mid_gc[0],
- TRUE, MARGIN, 0, widgets->profile_width, widgets->profile_height);
+ // Reset before redrawing
+ clear_images (pix, window, widgets);
/* draw grid */
for (i=0; i<=LINES; i++) {
- PangoLayout *pl = gtk_widget_create_pango_layout (GTK_WIDGET(image), NULL);
gchar s[32];
- int w, h;
-
- pango_layout_set_alignment (pl, PANGO_ALIGN_RIGHT);
- pango_layout_set_font_description (pl, gtk_widget_get_style(window)->font_desc);
switch (height_units) {
case VIK_UNITS_HEIGHT_METRES:
sprintf(s, "--");
g_critical("Houston, we've had a problem. height=%d", height_units);
}
- pango_layout_set_text(pl, s, -1);
- pango_layout_get_pixel_size (pl, &w, &h);
- gdk_draw_layout(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->fg_gc[0], MARGIN-w-3,
- CLAMP((int)i*widgets->profile_height/LINES - h/2, 0, widgets->profile_height-h), pl);
- gdk_draw_line (GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[0],
- MARGIN, widgets->profile_height/LINES * i, MARGIN + widgets->profile_width, widgets->profile_height/LINES * i);
- g_object_unref ( G_OBJECT ( pl ) );
- pl = NULL;
+ draw_grid_y ( window, image, widgets, pix, s, i );
}
+ draw_time_lines ( window, image, pix, widgets );
+
/* draw elevations */
+ guint height = widgets->profile_height + MARGIN_Y;
for ( i = 0; i < widgets->profile_width; i++ )
gdk_draw_line ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[3],
- i + MARGIN, widgets->profile_height, i + MARGIN, widgets->profile_height-widgets->profile_height*(widgets->ats[i]-mina)/(chunksa[widgets->ciat]*LINES) );
+ i + MARGIN_X, height, i + MARGIN_X, height-widgets->profile_height*(widgets->ats[i]-mina)/(chunksa[widgets->ciat]*LINES) );
- // Show speed indicator
+ // Show DEMS
+ if ( gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(widgets->w_show_elev_dem)) ) {
+ GdkColor color;
+ GdkGC *dem_alt_gc = gdk_gc_new ( gtk_widget_get_window(window) );
+ gdk_color_parse ( "green", &color );
+ gdk_gc_set_rgb_fg_color ( dem_alt_gc, &color);
+
+ gint h2 = widgets->profile_height + MARGIN_Y; // Adjust height for x axis labelling offset
+ gint achunk = chunksa[widgets->ciat]*LINES;
+
+ for ( i = 0; i < widgets->profile_width; i++ ) {
+ // This could be slow doing this each time...
+ VikTrackpoint *tp = vik_track_get_closest_tp_by_percentage_time ( widgets->tr, ((gdouble)i/(gdouble)widgets->profile_width), NULL );
+ if ( tp ) {
+ gint16 elev = a_dems_get_elev_by_coord(&(tp->coord), VIK_DEM_INTERPOL_SIMPLE);
+ elev -= mina; //?
+ if ( elev != VIK_DEM_INVALID_ELEVATION ) {
+ // Convert into height units
+ if ( a_vik_get_units_height () == VIK_UNITS_HEIGHT_FEET )
+ elev = VIK_METERS_TO_FEET(elev);
+ // No conversion needed if already in metres
+
+ // consider chunk size
+ int y_alt = h2 - ((widgets->profile_height * elev)/achunk );
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), dem_alt_gc, TRUE, i+MARGIN_X-2, y_alt-2, 4, 4);
+ }
+ }
+ }
+ g_object_unref ( G_OBJECT(dem_alt_gc) );
+ }
+
+ // Show speeds
if ( gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(widgets->w_show_elev_speed)) ) {
- GdkGC *elev_speed_gc = gdk_gc_new ( window->window );
GdkColor color;
+ // This is just an indicator - no actual values can be inferred by user
+ GdkGC *elev_speed_gc = gdk_gc_new ( gtk_widget_get_window(window) );
gdk_color_parse ( "red", &color );
gdk_gc_set_rgb_fg_color ( elev_speed_gc, &color);
- gdouble max_speed = 0;
- max_speed = widgets->max_speed * 110 / 100;
+ gdouble max_speed = widgets->max_speed * 110 / 100;
- // This is just an indicator - no actual values can be inferred by user
- gint i;
for ( i = 0; i < widgets->profile_width; i++ ) {
int y_speed = widgets->profile_height - (widgets->profile_height * widgets->speeds[i])/max_speed;
- gdk_draw_rectangle(GDK_DRAWABLE(pix), elev_speed_gc, TRUE, i+MARGIN-2, y_speed-2, 4, 4);
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), elev_speed_gc, TRUE, i+MARGIN_X-2, y_speed-2, 4, 4);
}
+
g_object_unref ( G_OBJECT(elev_speed_gc) );
}
/* draw border */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN, 0, widgets->profile_width-1, widgets->profile_height-1);
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN_X, MARGIN_Y, widgets->profile_width-1, widgets->profile_height-1);
g_object_unref ( G_OBJECT(pix) );
-
}
/**
*/
static void draw_sd ( GtkWidget *image, VikTrack *tr, PropWidgets *widgets)
{
- GtkWidget *window;
- GdkPixmap *pix;
gdouble mins;
guint i;
break;
}
- window = gtk_widget_get_toplevel (widgets->speed_dist_box);
-
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ GtkWidget *window = gtk_widget_get_toplevel (widgets->speed_dist_box);
+ GdkPixmap *pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
gtk_image_set_from_pixmap ( GTK_IMAGE(image), pix, NULL );
widgets->min_speed = 0; /* splines sometimes give negative speeds */
/* Find suitable chunk index */
- get_new_min_and_chunk_index (widgets->min_speed, widgets->max_speed_dist, chunkss, sizeof(chunkss)/sizeof(chunkss[0]), &widgets->draw_min_speed, &widgets->cisd);
+ get_new_min_and_chunk_index (widgets->min_speed, widgets->max_speed_dist, chunkss, G_N_ELEMENTS(chunkss), &widgets->draw_min_speed, &widgets->cisd);
// Assign locally
mins = widgets->draw_min_speed;
- /* clear the image */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->bg_gc[0],
- TRUE, 0, 0, MARGIN, widgets->profile_height);
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->mid_gc[0],
- TRUE, MARGIN, 0, widgets->profile_width, widgets->profile_height);
+ // Reset before redrawing
+ clear_images (pix, window, widgets);
/* draw grid */
for (i=0; i<=LINES; i++) {
- PangoLayout *pl = gtk_widget_create_pango_layout (GTK_WIDGET(image), NULL);
gchar s[32];
- int w, h;
-
- pango_layout_set_alignment (pl, PANGO_ALIGN_RIGHT);
- pango_layout_set_font_description (pl, gtk_widget_get_style(window)->font_desc);
// NB: No need to convert here anymore as numbers are in the appropriate units
switch (speed_units) {
g_critical("Houston, we've had a problem. speed=%d", speed_units);
}
- pango_layout_set_text(pl, s, -1);
- pango_layout_get_pixel_size (pl, &w, &h);
- gdk_draw_layout(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->fg_gc[0], MARGIN-w-3,
- CLAMP((int)i*widgets->profile_height/LINES - h/2, 0, widgets->profile_height-h), pl);
-
- gdk_draw_line (GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[0],
- MARGIN, widgets->profile_height/LINES * i, MARGIN + widgets->profile_width, widgets->profile_height/LINES * i);
- g_object_unref ( G_OBJECT ( pl ) );
- pl = NULL;
+ draw_grid_y ( window, image, widgets, pix, s, i );
}
-
+
+ draw_distance_divisions ( window, image, pix, widgets, a_vik_get_units_distance() );
/* draw speeds */
+ guint height = widgets->profile_height + MARGIN_Y;
for ( i = 0; i < widgets->profile_width; i++ )
gdk_draw_line ( GDK_DRAWABLE(pix), gtk_widget_get_style(window)->dark_gc[3],
- i + MARGIN, widgets->profile_height, i + MARGIN, widgets->profile_height-widgets->profile_height*(widgets->speeds_dist[i]-mins)/(chunkss[widgets->cisd]*LINES) );
+ i + MARGIN_X, height, i + MARGIN_X, height - widgets->profile_height*(widgets->speeds_dist[i]-mins)/(chunkss[widgets->cisd]*LINES) );
if ( gtk_toggle_button_get_active(GTK_TOGGLE_BUTTON(widgets->w_show_sd_gps_speed)) ) {
- GdkGC *gps_speed_gc = gdk_gc_new ( window->window );
+ GdkGC *gps_speed_gc = gdk_gc_new ( gtk_widget_get_window(window) );
GdkColor color;
gdk_color_parse ( "red", &color );
gdk_gc_set_rgb_fg_color ( gps_speed_gc, &color);
break;
}
dist_tp += vik_coord_diff ( &(VIK_TRACKPOINT(iter->data)->coord), &(VIK_TRACKPOINT(iter->prev->data)->coord) );
- int x = MARGIN + (widgets->profile_width * dist_tp / dist);
- int y = widgets->profile_height - widgets->profile_height*(gps_speed - mins)/(chunkss[widgets->cisd]*LINES);
+ int x = MARGIN_X + (widgets->profile_width * dist_tp / dist);
+ int y = height - widgets->profile_height*(gps_speed - mins)/(chunkss[widgets->cisd]*LINES);
gdk_draw_rectangle(GDK_DRAWABLE(pix), gps_speed_gc, TRUE, x-2, y-2, 4, 4);
}
g_object_unref ( G_OBJECT(gps_speed_gc) );
}
/* draw border */
- gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN, 0, widgets->profile_width-1, widgets->profile_height-1);
+ gdk_draw_rectangle(GDK_DRAWABLE(pix), gtk_widget_get_style(window)->black_gc, FALSE, MARGIN_X, MARGIN_Y, widgets->profile_width-1, widgets->profile_height-1);
g_object_unref ( G_OBJECT(pix) );
}
if (widgets->is_marker_drawn || widgets->is_blob_drawn) {
pc = tp_percentage_by_distance ( widgets->tr, widgets->marker_tp, widgets->track_length_inc_gaps );
- gdouble x_blob = -MARGIN - 1.0; // i.e. Don't draw unless we get a valid value
+ gdouble x_blob = -MARGIN_X - 1.0; // i.e. Don't draw unless we get a valid value
gint y_blob = 0;
if (widgets->is_blob_drawn) {
pc_blob = tp_percentage_by_distance ( widgets->tr, widgets->blob_tp, widgets->track_length_inc_gaps );
gdouble marker_x = -1.0; // i.e. Don't draw unless we get a valid value
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- x_blob+MARGIN,
- y_blob,
+ x_blob+MARGIN_X,
+ y_blob+MARGIN_Y,
&widgets->elev_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
if (widgets->is_marker_drawn || widgets->is_blob_drawn) {
pc = tp_percentage_by_distance ( widgets->tr, widgets->marker_tp, widgets->track_length_inc_gaps );
- gdouble x_blob = -MARGIN - 1.0; // i.e. Don't draw unless we get a valid value
+ gdouble x_blob = -MARGIN_X - 1.0; // i.e. Don't draw unless we get a valid value
gint y_blob = 0;
if (widgets->is_blob_drawn) {
pc_blob = tp_percentage_by_distance ( widgets->tr, widgets->blob_tp, widgets->track_length_inc_gaps );
gdouble marker_x = -1.0; // i.e. Don't draw unless we get a valid value
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- x_blob+MARGIN,
- y_blob,
+ x_blob+MARGIN_X,
+ y_blob+MARGIN_Y,
&widgets->gradient_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
pc = tp_percentage_by_time ( widgets->tr, widgets->marker_tp );
- gdouble x_blob = -MARGIN - 1.0; // i.e. Don't draw unless we get a valid value
+ gdouble x_blob = -MARGIN_X - 1.0; // i.e. Don't draw unless we get a valid value
gint y_blob = 0;
if (widgets->is_blob_drawn) {
pc_blob = tp_percentage_by_time ( widgets->tr, widgets->blob_tp );
gdouble marker_x = -1.0; // i.e. Don't draw unless we get a valid value
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- x_blob+MARGIN,
- y_blob,
+ x_blob+MARGIN_X,
+ y_blob+MARGIN_Y,
&widgets->speed_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
pc = tp_percentage_by_time ( widgets->tr, widgets->marker_tp );
- gdouble x_blob = -MARGIN - 1.0; // i.e. Don't draw unless we get a valid value
+ gdouble x_blob = -MARGIN_X - 1.0; // i.e. Don't draw unless we get a valid value
gint y_blob = 0;
if (widgets->is_blob_drawn) {
pc_blob = tp_percentage_by_time ( widgets->tr, widgets->blob_tp );
gdouble marker_x = -1.0; // i.e. Don't draw unless we get a valid value
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- x_blob+MARGIN,
- y_blob,
+ x_blob+MARGIN_X,
+ y_blob+MARGIN_Y,
&widgets->dist_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
pc = tp_percentage_by_time ( widgets->tr, widgets->marker_tp );
- gdouble x_blob = -MARGIN - 1.0; // i.e. Don't draw unless we get a valid value
+ gdouble x_blob = -MARGIN_X - 1.0; // i.e. Don't draw unless we get a valid value
gint y_blob = 0;
if (widgets->is_blob_drawn) {
pc_blob = tp_percentage_by_time ( widgets->tr, widgets->blob_tp );
gdouble marker_x = -1.0; // i.e. Don't draw unless we get a valid value
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- x_blob+MARGIN,
- y_blob,
+ x_blob+MARGIN_X,
+ y_blob+MARGIN_Y,
&widgets->elev_time_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
if (widgets->is_marker_drawn || widgets->is_blob_drawn) {
pc = tp_percentage_by_distance ( widgets->tr, widgets->marker_tp, widgets->track_length_inc_gaps );
- gdouble x_blob = -MARGIN - 1.0; // i.e. Don't draw unless we get a valid value
+ gdouble x_blob = -MARGIN_X - 1.0; // i.e. Don't draw unless we get a valid value
gint y_blob = 0;
if (widgets->is_blob_drawn) {
pc_blob = tp_percentage_by_distance ( widgets->tr, widgets->blob_tp, widgets->track_length_inc_gaps );
gdouble marker_x = -1.0; // i.e. Don't draw unless we get a valid value
if (!isnan(pc)) {
- marker_x = (pc * widgets->profile_width) + MARGIN;
+ marker_x = (pc * widgets->profile_width) + MARGIN_X;
}
save_image_and_draw_graph_marks (image,
marker_x,
gtk_widget_get_style(window)->black_gc,
- x_blob+MARGIN,
- y_blob,
+ x_blob+MARGIN_X,
+ y_blob+MARGIN_Y,
&widgets->speed_dist_graph_saved_img,
widgets->profile_width,
widgets->profile_height,
widgets->configure_dialog = FALSE;
// Without this the settting, the dialog will only grow in vertical size - one can not then make it smaller!
- gtk_widget_set_size_request ( widget, widgets->profile_width+widgets->profile_width_offset, widgets->profile_height );
- // In fact this allows one to compress it a bit more vertically as I don't add on the height offset
+ gtk_widget_set_size_request ( widget, widgets->profile_width+widgets->profile_width_offset, widgets->profile_height+widgets->profile_height_offset );
+
+ // Allow resizing back down to a minimal size (especially useful if the initial size has been made bigger after restoring from the saved settings)
+ GdkGeometry geom = { 600+widgets->profile_width_offset, 300+widgets->profile_height_offset, 0, 0, 0, 0, 0, 0, 0, 0, GDK_GRAVITY_STATIC };
+ gdk_window_set_geometry_hints ( gtk_widget_get_window(widget), &geom, GDK_HINT_MIN_SIZE );
}
else {
widgets->profile_width_old = widgets->profile_width;
minmax_array(widgets->altitudes, min_alt, max_alt, TRUE, widgets->profile_width);
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
image = gtk_image_new_from_pixmap ( pix, NULL );
g_object_unref ( G_OBJECT(pix) );
return NULL;
}
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
image = gtk_image_new_from_pixmap ( pix, NULL );
g_object_unref ( G_OBJECT(pix) );
if ( widgets->speeds == NULL )
return NULL;
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
image = gtk_image_new_from_pixmap ( pix, NULL );
#if 0
if ( widgets->distances == NULL )
return NULL;
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
image = gtk_image_new_from_pixmap ( pix, NULL );
g_object_unref ( G_OBJECT(pix) );
if ( widgets->ats == NULL )
return NULL;
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
image = gtk_image_new_from_pixmap ( pix, NULL );
g_object_unref ( G_OBJECT(pix) );
if ( widgets->speeds_dist == NULL )
return NULL;
- pix = gdk_pixmap_new( window->window, widgets->profile_width + MARGIN, widgets->profile_height, -1 );
+ pix = gdk_pixmap_new( gtk_widget_get_window(window), widgets->profile_width+MARGIN_X, widgets->profile_height+MARGIN_Y, -1 );
image = gtk_image_new_from_pixmap ( pix, NULL );
g_object_unref ( G_OBJECT(pix) );
return eventbox;
}
-#undef MARGIN
+#undef MARGIN_X
+
+#define VIK_SETTINGS_TRACK_PROFILE_WIDTH "track_profile_display_width"
+#define VIK_SETTINGS_TRACK_PROFILE_HEIGHT "track_profile_display_height"
+
+static void save_values ( PropWidgets *widgets )
+{
+ // Session settings
+ a_settings_set_integer ( VIK_SETTINGS_TRACK_PROFILE_WIDTH, widgets->profile_width );
+ a_settings_set_integer ( VIK_SETTINGS_TRACK_PROFILE_HEIGHT, widgets->profile_height );
+
+ // Just for this session ATM
+ show_dem = gtk_toggle_button_get_active ( GTK_TOGGLE_BUTTON(widgets->w_show_dem) );
+ show_alt_gps_speed = gtk_toggle_button_get_active ( GTK_TOGGLE_BUTTON(widgets->w_show_alt_gps_speed) );
+ show_gps_speed = gtk_toggle_button_get_active ( GTK_TOGGLE_BUTTON(widgets->w_show_gps_speed) );
+ show_gradient_gps_speed = gtk_toggle_button_get_active ( GTK_TOGGLE_BUTTON(widgets->w_show_gradient_gps_speed) );
+ show_dist_speed = gtk_toggle_button_get_active ( GTK_TOGGLE_BUTTON(widgets->w_show_dist_speed) );
+ show_elev_dem = gtk_toggle_button_get_active ( GTK_TOGGLE_BUTTON(widgets->w_show_elev_dem) );
+ show_elev_speed = gtk_toggle_button_get_active ( GTK_TOGGLE_BUTTON(widgets->w_show_elev_speed) );
+ show_sd_gps_speed = gtk_toggle_button_get_active ( GTK_TOGGLE_BUTTON(widgets->w_show_sd_gps_speed) );
+}
static void destroy_cb ( GtkDialog *dialog, PropWidgets *widgets )
{
+ save_values(widgets);
prop_widgets_free(widgets);
}
vik_track_set_comment(tr, gtk_entry_get_text(GTK_ENTRY(widgets->w_comment)));
vik_track_set_description(tr, gtk_entry_get_text(GTK_ENTRY(widgets->w_description)));
gtk_color_button_get_color ( GTK_COLOR_BUTTON(widgets->w_color), &(tr->color) );
- trw_layer_update_treeview ( widgets->vtl, widgets->tr, widgets->trk_id );
+ tr->draw_name_mode = gtk_combo_box_get_active ( GTK_COMBO_BOX(widgets->w_namelabel) );
+ tr->max_number_dist_labels = gtk_spin_button_get_value_as_int ( GTK_SPIN_BUTTON(widgets->w_number_distlabels) );
+ trw_layer_update_treeview ( widgets->vtl, widgets->tr );
vik_layer_emit_update ( VIK_LAYER(vtl) );
break;
case VIK_TRW_LAYER_PROPWIN_REVERSE:
vik_trw_layer_add_route ( vtl, new_tr_name, tracks[i] );
else
vik_trw_layer_add_track ( vtl, new_tr_name, tracks[i] );
+ vik_track_calculate_bounds ( tracks[i] );
+
+ g_free ( new_tr_name );
}
}
if ( tracks )
vik_trw_layer_add_route(vtl, r_name, tr_right);
else
vik_trw_layer_add_track(vtl, r_name, tr_right);
+ vik_track_calculate_bounds ( tr );
+ vik_track_calculate_bounds ( tr_right );
+
+ g_free ( r_name );
+
vik_layer_emit_update ( VIK_LAYER(vtl) );
}
break;
GtkWidget *value,
const gchar *markup2,
GtkWidget *value2,
+ const gchar *markup3,
+ GtkWidget *value3,
GtkWidget *checkbutton1,
gboolean checkbutton1_default,
GtkWidget *checkbutton2,
GtkWidget *vbox = gtk_vbox_new ( FALSE, 10 );
GtkWidget *label = gtk_label_new (NULL);
GtkWidget *label2 = gtk_label_new (NULL);
+ GtkWidget *label3 = gtk_label_new (NULL);
gtk_box_pack_start (GTK_BOX(vbox), graph, FALSE, FALSE, 0);
gtk_label_set_markup ( GTK_LABEL(label), markup );
gtk_label_set_markup ( GTK_LABEL(label2), markup2 );
+ gtk_label_set_markup ( GTK_LABEL(label3), markup3 );
gtk_box_pack_start (GTK_BOX(hbox), label, FALSE, FALSE, 0);
gtk_box_pack_start (GTK_BOX(hbox), value, FALSE, FALSE, 0);
gtk_box_pack_start (GTK_BOX(hbox), label2, FALSE, FALSE, 0);
gtk_box_pack_start (GTK_BOX(hbox), value2, FALSE, FALSE, 0);
+ if ( value3 ) {
+ gtk_box_pack_start (GTK_BOX(hbox), label3, FALSE, FALSE, 0);
+ gtk_box_pack_start (GTK_BOX(hbox), value3, FALSE, FALSE, 0);
+ }
if (checkbutton2) {
gtk_box_pack_end (GTK_BOX(hbox), checkbutton2, FALSE, FALSE, 0);
gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON(checkbutton2), checkbutton2_default);
return vbox;
}
+static GtkWidget *create_table (int cnt, char *labels[], GtkWidget *contents[])
+{
+ GtkTable *table;
+ int i;
+
+ table = GTK_TABLE(gtk_table_new (cnt, 2, FALSE));
+ gtk_table_set_col_spacing (table, 0, 10);
+ for (i=0; i<cnt; i++) {
+ GtkWidget *label;
+
+ // Settings so the text positioning only moves around vertically when the dialog is resized
+ // This also gives more room to see the track comment
+ label = gtk_label_new(NULL);
+ gtk_misc_set_alignment ( GTK_MISC(label), 1, 0.5 ); // Position text centrally in vertical plane
+ gtk_label_set_markup ( GTK_LABEL(label), _(labels[i]) );
+ gtk_table_attach ( table, label, 0, 1, i, i+1, GTK_FILL, GTK_SHRINK, 0, 0 );
+ if (GTK_IS_MISC(contents[i])) {
+ gtk_misc_set_alignment ( GTK_MISC(contents[i]), 0, 0.5 );
+ }
+ if ( GTK_IS_COLOR_BUTTON(contents[i]) || GTK_IS_COMBO_BOX(contents[i]) )
+ // Buttons compressed - otherwise look weird (to me) if vertically massive
+ gtk_table_attach ( table, contents[i], 1, 2, i, i+1, GTK_FILL, GTK_SHRINK, 0, 5 );
+ else
+ // Expand for comments + descriptions / labels
+ gtk_table_attach_defaults ( table, contents[i], 1, 2, i, i+1 );
+ }
+
+ return GTK_WIDGET (table);
+}
+
void vik_trw_layer_propwin_run ( GtkWindow *parent,
VikTrwLayer *vtl,
VikTrack *tr,
gpointer vlp,
VikViewport *vvp,
- gpointer *trk_id )
+ gboolean start_on_stats )
{
PropWidgets *widgets = prop_widgets_new();
widgets->vtl = vtl;
widgets->vvp = vvp;
widgets->vlp = vlp;
widgets->tr = tr;
- widgets->trk_id = trk_id;
- widgets->profile_width = PROPWIN_PROFILE_WIDTH;
- widgets->profile_height = PROPWIN_PROFILE_HEIGHT;
+
+ gint profile_size_value;
+ // Ensure minimum values
+ widgets->profile_width = 600;
+ if ( a_settings_get_integer ( VIK_SETTINGS_TRACK_PROFILE_WIDTH, &profile_size_value ) )
+ if ( profile_size_value > widgets->profile_width )
+ widgets->profile_width = profile_size_value;
+
+ widgets->profile_height = 300;
+ if ( a_settings_get_integer ( VIK_SETTINGS_TRACK_PROFILE_HEIGHT, &profile_size_value ) )
+ if ( profile_size_value > widgets->profile_height )
+ widgets->profile_height = profile_size_value;
+
gchar *title = g_strdup_printf(_("%s - Track Properties"), tr->name);
GtkWidget *dialog = gtk_dialog_new_with_buttons (title,
parent,
g_signal_connect( G_OBJECT(dialog), "response", G_CALLBACK(propwin_response_cb), widgets);
g_free(title);
- GtkTable *table;
+ GtkWidget *table;
gdouble tr_len;
gulong tp_count;
guint seg_count;
widgets->speed_dist_box = vik_trw_layer_create_sddiag(GTK_WIDGET(parent), widgets);
GtkWidget *graphs = gtk_notebook_new();
- GtkWidget *content[20];
- int cnt;
- int i;
+ GtkWidget *content_prop[20];
+ int cnt_prop = 0;
static gchar *label_texts[] = {
N_("<b>Comment:</b>"),
N_("<b>Description:</b>"),
+ N_("<b>Color:</b>"),
+ N_("<b>Draw Name:</b>"),
+ N_("<b>Distance Labels:</b>"),
+ };
+ static gchar *stats_texts[] = {
N_("<b>Track Length:</b>"),
N_("<b>Trackpoints:</b>"),
N_("<b>Segments:</b>"),
N_("<b>Start:</b>"),
N_("<b>End:</b>"),
N_("<b>Duration:</b>"),
- N_("<b>Color:</b>") };
+ };
static gchar tmp_buf[50];
gdouble tmp_speed;
- cnt = 0;
+ // Properties
widgets->w_comment = gtk_entry_new ();
if ( tr->comment )
gtk_entry_set_text ( GTK_ENTRY(widgets->w_comment), tr->comment );
g_signal_connect_swapped ( widgets->w_comment, "activate", G_CALLBACK(a_dialog_response_accept), GTK_DIALOG(dialog) );
- content[cnt++] = widgets->w_comment;
+ content_prop[cnt_prop++] = widgets->w_comment;
widgets->w_description = gtk_entry_new ();
if ( tr->description )
gtk_entry_set_text ( GTK_ENTRY(widgets->w_description), tr->description );
g_signal_connect_swapped ( widgets->w_description, "activate", G_CALLBACK(a_dialog_response_accept), GTK_DIALOG(dialog) );
- content[cnt++] = widgets->w_description;
+ content_prop[cnt_prop++] = widgets->w_description;
+
+ widgets->w_color = content_prop[cnt_prop++] = gtk_color_button_new_with_color ( &(tr->color) );
+
+ static gchar *draw_name_labels[] = {
+ N_("No"),
+ N_("Centre"),
+ N_("Start only"),
+ N_("End only"),
+ N_("Start and End"),
+ N_("Centre, Start and End"),
+ NULL
+ };
+
+ widgets->w_namelabel = content_prop[cnt_prop++] = vik_combo_box_text_new ();
+ gchar **pstr = draw_name_labels;
+ while ( *pstr )
+ vik_combo_box_text_append ( widgets->w_namelabel, *(pstr++) );
+ gtk_combo_box_set_active ( GTK_COMBO_BOX(widgets->w_namelabel), tr->draw_name_mode );
+
+ widgets->w_number_distlabels = content_prop[cnt_prop++] =
+ gtk_spin_button_new ( GTK_ADJUSTMENT(gtk_adjustment_new(tr->max_number_dist_labels, 0, 100, 1, 1, 0)), 1, 0 );
+ gtk_widget_set_tooltip_text ( GTK_WIDGET(widgets->w_number_distlabels), _("Maximum number of distance labels to be shown") );
+
+ table = create_table (cnt_prop, label_texts, content_prop);
+
+ gtk_notebook_append_page(GTK_NOTEBOOK(graphs), GTK_WIDGET(table), gtk_label_new(_("Properties")));
+
+ // Statistics
+ GtkWidget *content[20];
+ int cnt = 0;
vik_units_distance_t dist_units = a_vik_get_units_distance ();
case VIK_UNITS_DISTANCE_MILES:
g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f miles", VIK_METERS_TO_MILES(tr_len) );
break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ g_snprintf(tmp_buf, sizeof(tmp_buf), "%.2f NM", VIK_METERS_TO_NAUTICAL_MILES(tr_len) );
+ break;
default:
g_critical("Houston, we've had a problem. distance=%d", dist_units);
}
- widgets->w_track_length = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_track_length = content[cnt++] = ui_label_new_selectable ( tmp_buf );
tp_count = vik_track_get_tp_count(tr);
g_snprintf(tmp_buf, sizeof(tmp_buf), "%lu", tp_count );
- widgets->w_tp_count = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_tp_count = content[cnt++] = ui_label_new_selectable ( tmp_buf );
seg_count = vik_track_get_segment_count(tr) ;
g_snprintf(tmp_buf, sizeof(tmp_buf), "%u", seg_count );
- widgets->w_segment_count = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_segment_count = content[cnt++] = ui_label_new_selectable ( tmp_buf );
g_snprintf(tmp_buf, sizeof(tmp_buf), "%lu", vik_track_get_dup_point_count(tr) );
- widgets->w_duptp_count = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_duptp_count = content[cnt++] = ui_label_new_selectable ( tmp_buf );
vik_units_speed_t speed_units = a_vik_get_units_speed ();
tmp_speed = vik_track_get_max_speed(tr);
g_critical("Houston, we've had a problem. speed=%d", speed_units);
}
}
- widgets->w_max_speed = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_max_speed = content[cnt++] = ui_label_new_selectable ( tmp_buf );
tmp_speed = vik_track_get_average_speed(tr);
if ( tmp_speed == 0 )
g_critical("Houston, we've had a problem. speed=%d", speed_units);
}
}
- widgets->w_avg_speed = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_avg_speed = content[cnt++] = ui_label_new_selectable ( tmp_buf );
// Use 60sec as the default period to be considered stopped
// this is the TrackWaypoint draw stops default value 'vtl->stop_length'
g_critical("Houston, we've had a problem. speed=%d", speed_units);
}
}
- widgets->w_mvg_speed = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_mvg_speed = content[cnt++] = ui_label_new_selectable ( tmp_buf );
switch (dist_units) {
case VIK_UNITS_DISTANCE_KILOMETRES:
case VIK_UNITS_DISTANCE_MILES:
g_snprintf(tmp_buf, sizeof(tmp_buf), "%.3f miles", (tp_count - seg_count) == 0 ? 0 : VIK_METERS_TO_MILES(tr_len / ( tp_count - seg_count )) );
break;
+ case VIK_UNITS_DISTANCE_NAUTICAL_MILES:
+ g_snprintf(tmp_buf, sizeof(tmp_buf), "%.3f NM", (tp_count - seg_count) == 0 ? 0 : VIK_METERS_TO_NAUTICAL_MILES(tr_len / ( tp_count - seg_count )) );
+ break;
default:
g_critical("Houston, we've had a problem. distance=%d", dist_units);
}
- widgets->w_avg_dist = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_avg_dist = content[cnt++] = ui_label_new_selectable ( tmp_buf );
vik_units_height_t height_units = a_vik_get_units_height ();
if ( min_alt == VIK_DEFAULT_ALTITUDE )
g_critical("Houston, we've had a problem. height=%d", height_units);
}
}
- widgets->w_elev_range = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_elev_range = content[cnt++] = ui_label_new_selectable ( tmp_buf );
vik_track_get_total_elevation_gain(tr, &max_alt, &min_alt );
if ( min_alt == VIK_DEFAULT_ALTITUDE )
g_critical("Houston, we've had a problem. height=%d", height_units);
}
}
- widgets->w_elev_gain = content[cnt++] = gtk_label_new ( tmp_buf );
+ widgets->w_elev_gain = content[cnt++] = ui_label_new_selectable ( tmp_buf );
#if 0
#define PACK(w) gtk_box_pack_start (GTK_BOX(right_vbox), w, FALSE, FALSE, 0);
t1 = VIK_TRACKPOINT(tr->trackpoints->data)->timestamp;
t2 = VIK_TRACKPOINT(g_list_last(tr->trackpoints)->data)->timestamp;
- strncpy(tmp_buf, ctime(&t1), sizeof(tmp_buf));
- tmp_buf[sizeof(tmp_buf)-1] = 0;
- g_strchomp(tmp_buf);
- widgets->w_time_start = content[cnt++] = gtk_label_new(tmp_buf);
+ VikCoord vc;
+ // Notional center of a track is simply an average of the bounding box extremities
+ struct LatLon center = { (tr->bbox.north+tr->bbox.south)/2, (tr->bbox.east+tr->bbox.west)/2 };
+ vik_coord_load_from_latlon ( &vc, vik_trw_layer_get_coord_mode(vtl), ¢er );
+
+ widgets->tz = vu_get_tz_at_location ( &vc );
- strncpy(tmp_buf, ctime(&t2), sizeof(tmp_buf));
- tmp_buf[sizeof(tmp_buf)-1] = 0;
- g_strchomp(tmp_buf);
- widgets->w_time_end = content[cnt++] = gtk_label_new(tmp_buf);
+ gchar *msg;
+ msg = vu_get_time_string ( &t1, "%c", &vc, widgets->tz );
+ widgets->w_time_start = content[cnt++] = ui_label_new_selectable(msg);
+ g_free ( msg );
+
+ msg = vu_get_time_string ( &t2, "%c", &vc, widgets->tz );
+ widgets->w_time_end = content[cnt++] = ui_label_new_selectable(msg);
+ g_free ( msg );
g_snprintf(tmp_buf, sizeof(tmp_buf), _("%d minutes"), (int)(t2-t1)/60);
- widgets->w_time_dur = content[cnt++] = gtk_label_new(tmp_buf);
+ widgets->w_time_dur = content[cnt++] = ui_label_new_selectable(tmp_buf);
} else {
widgets->w_time_start = content[cnt++] = gtk_label_new(_("No Data"));
widgets->w_time_end = content[cnt++] = gtk_label_new(_("No Data"));
widgets->w_time_dur = content[cnt++] = gtk_label_new(_("No Data"));
}
- widgets->w_color = content[cnt++] = gtk_color_button_new_with_color ( &(tr->color) );
-
- table = GTK_TABLE(gtk_table_new (cnt, 2, FALSE));
- gtk_table_set_col_spacing (table, 0, 10);
- for (i=0; i<cnt; i++) {
- GtkWidget *label;
-
- // Settings so the text positioning only moves around vertically when the dialog is resized
- // This also gives more room to see the track comment
- label = gtk_label_new(NULL);
- gtk_misc_set_alignment ( GTK_MISC(label), 1, 0.5 ); // Position text centrally in vertical plane
- gtk_label_set_markup ( GTK_LABEL(label), _(label_texts[i]) );
- gtk_table_attach ( table, label, 0, 1, i, i+1, GTK_FILL, GTK_SHRINK, 0, 0 );
- if (GTK_IS_MISC(content[i])) {
- gtk_misc_set_alignment ( GTK_MISC(content[i]), 0, 0.5 );
- }
- gtk_table_attach_defaults ( table, content[i], 1, 2, i, i+1 );
- }
+ table = create_table (cnt, stats_texts, content);
gtk_notebook_append_page(GTK_NOTEBOOK(graphs), GTK_WIDGET(table), gtk_label_new(_("Statistics")));
if ( widgets->elev_box ) {
GtkWidget *page = NULL;
- widgets->w_cur_dist = gtk_label_new(_("No Data"));
- widgets->w_cur_elevation = gtk_label_new(_("No Data"));
+ widgets->w_cur_dist = ui_label_new_selectable(_("No Data"));
+ widgets->w_cur_elevation = ui_label_new_selectable(_("No Data"));
widgets->w_show_dem = gtk_check_button_new_with_mnemonic(_("Show D_EM"));
widgets->w_show_alt_gps_speed = gtk_check_button_new_with_mnemonic(_("Show _GPS Speed"));
page = create_graph_page (widgets->elev_box,
- _("<b>Track Distance:</b>"), widgets->w_cur_dist,
- _("<b>Track Height:</b>"), widgets->w_cur_elevation,
- widgets->w_show_dem, TRUE,
- widgets->w_show_alt_gps_speed, TRUE);
+ _("<b>Track Distance:</b>"), widgets->w_cur_dist,
+ _("<b>Track Height:</b>"), widgets->w_cur_elevation,
+ NULL, NULL,
+ widgets->w_show_dem, show_dem,
+ widgets->w_show_alt_gps_speed, show_alt_gps_speed);
g_signal_connect (widgets->w_show_dem, "toggled", G_CALLBACK (checkbutton_toggle_cb), widgets);
g_signal_connect (widgets->w_show_alt_gps_speed, "toggled", G_CALLBACK (checkbutton_toggle_cb), widgets);
gtk_notebook_append_page(GTK_NOTEBOOK(graphs), page, gtk_label_new(_("Elevation-distance")));
if ( widgets->gradient_box ) {
GtkWidget *page = NULL;
- widgets->w_cur_gradient_dist = gtk_label_new(_("No Data"));
- widgets->w_cur_gradient_gradient = gtk_label_new(_("No Data"));
+ widgets->w_cur_gradient_dist = ui_label_new_selectable(_("No Data"));
+ widgets->w_cur_gradient_gradient = ui_label_new_selectable(_("No Data"));
widgets->w_show_gradient_gps_speed = gtk_check_button_new_with_mnemonic(_("Show _GPS Speed"));
page = create_graph_page (widgets->gradient_box,
- _("<b>Track Distance:</b>"), widgets->w_cur_gradient_dist,
- _("<b>Track Gradient:</b>"), widgets->w_cur_gradient_gradient,
- widgets->w_show_gradient_gps_speed, TRUE,
- NULL, FALSE);
+ _("<b>Track Distance:</b>"), widgets->w_cur_gradient_dist,
+ _("<b>Track Gradient:</b>"), widgets->w_cur_gradient_gradient,
+ NULL, NULL,
+ widgets->w_show_gradient_gps_speed, show_gradient_gps_speed,
+ NULL, FALSE);
g_signal_connect (widgets->w_show_gradient_gps_speed, "toggled", G_CALLBACK (checkbutton_toggle_cb), widgets);
gtk_notebook_append_page(GTK_NOTEBOOK(graphs), page, gtk_label_new(_("Gradient-distance")));
}
if ( widgets->speed_box ) {
GtkWidget *page = NULL;
- widgets->w_cur_time = gtk_label_new(_("No Data"));
- widgets->w_cur_speed = gtk_label_new(_("No Data"));
+ widgets->w_cur_time = ui_label_new_selectable(_("No Data"));
+ widgets->w_cur_speed = ui_label_new_selectable(_("No Data"));
+ widgets->w_cur_time_real = ui_label_new_selectable(_("No Data"));
widgets->w_show_gps_speed = gtk_check_button_new_with_mnemonic(_("Show _GPS Speed"));
page = create_graph_page (widgets->speed_box,
- _("<b>Track Time:</b>"), widgets->w_cur_time,
- _("<b>Track Speed:</b>"), widgets->w_cur_speed,
- widgets->w_show_gps_speed, TRUE,
- NULL, FALSE);
+ _("<b>Track Time:</b>"), widgets->w_cur_time,
+ _("<b>Track Speed:</b>"), widgets->w_cur_speed,
+ _("<b>Time/Date:</b>"), widgets->w_cur_time_real,
+ widgets->w_show_gps_speed, show_gps_speed,
+ NULL, FALSE);
g_signal_connect (widgets->w_show_gps_speed, "toggled", G_CALLBACK (checkbutton_toggle_cb), widgets);
gtk_notebook_append_page(GTK_NOTEBOOK(graphs), page, gtk_label_new(_("Speed-time")));
}
if ( widgets->dist_box ) {
GtkWidget *page = NULL;
- widgets->w_cur_dist_time = gtk_label_new(_("No Data"));
- widgets->w_cur_dist_dist = gtk_label_new(_("No Data"));
+ widgets->w_cur_dist_time = ui_label_new_selectable(_("No Data"));
+ widgets->w_cur_dist_dist = ui_label_new_selectable(_("No Data"));
+ widgets->w_cur_dist_time_real = ui_label_new_selectable(_("No Data"));
widgets->w_show_dist_speed = gtk_check_button_new_with_mnemonic(_("Show S_peed"));
page = create_graph_page (widgets->dist_box,
- _("<b>Track Distance:</b>"), widgets->w_cur_dist_dist,
- _("<b>Track Time:</b>"), widgets->w_cur_dist_time,
- widgets->w_show_dist_speed, FALSE,
- NULL, FALSE);
+ _("<b>Track Distance:</b>"), widgets->w_cur_dist_dist,
+ _("<b>Track Time:</b>"), widgets->w_cur_dist_time,
+ _("<b>Time/Date:</b>"), widgets->w_cur_dist_time_real,
+ widgets->w_show_dist_speed, show_dist_speed,
+ NULL, FALSE);
g_signal_connect (widgets->w_show_dist_speed, "toggled", G_CALLBACK (checkbutton_toggle_cb), widgets);
gtk_notebook_append_page(GTK_NOTEBOOK(graphs), page, gtk_label_new(_("Distance-time")));
}
if ( widgets->elev_time_box ) {
GtkWidget *page = NULL;
- widgets->w_cur_elev_time = gtk_label_new(_("No Data"));
- widgets->w_cur_elev_elev = gtk_label_new(_("No Data"));
+ widgets->w_cur_elev_time = ui_label_new_selectable(_("No Data"));
+ widgets->w_cur_elev_elev = ui_label_new_selectable(_("No Data"));
+ widgets->w_cur_elev_time_real = ui_label_new_selectable(_("No Data"));
widgets->w_show_elev_speed = gtk_check_button_new_with_mnemonic(_("Show S_peed"));
+ widgets->w_show_elev_dem = gtk_check_button_new_with_mnemonic(_("Show D_EM"));
page = create_graph_page (widgets->elev_time_box,
- _("<b>Track Time:</b>"), widgets->w_cur_elev_time,
- _("<b>Track Height:</b>"), widgets->w_cur_elev_elev,
- widgets->w_show_elev_speed, FALSE,
- NULL, FALSE);
+ _("<b>Track Time:</b>"), widgets->w_cur_elev_time,
+ _("<b>Track Height:</b>"), widgets->w_cur_elev_elev,
+ _("<b>Time/Date:</b>"), widgets->w_cur_elev_time_real,
+ widgets->w_show_elev_dem, show_elev_dem,
+ widgets->w_show_elev_speed, show_elev_speed);
+ g_signal_connect (widgets->w_show_elev_dem, "toggled", G_CALLBACK (checkbutton_toggle_cb), widgets);
g_signal_connect (widgets->w_show_elev_speed, "toggled", G_CALLBACK (checkbutton_toggle_cb), widgets);
gtk_notebook_append_page(GTK_NOTEBOOK(graphs), page, gtk_label_new(_("Elevation-time")));
}
if ( widgets->speed_dist_box ) {
GtkWidget *page = NULL;
- widgets->w_cur_speed_dist = gtk_label_new(_("No Data"));
- widgets->w_cur_speed_speed = gtk_label_new(_("No Data"));
+ widgets->w_cur_speed_dist = ui_label_new_selectable(_("No Data"));
+ widgets->w_cur_speed_speed = ui_label_new_selectable(_("No Data"));
widgets->w_show_sd_gps_speed = gtk_check_button_new_with_mnemonic(_("Show _GPS Speed"));
page = create_graph_page (widgets->speed_dist_box,
- _("<b>Track Distance:</b>"), widgets->w_cur_speed_dist,
- _("<b>Track Speed:</b>"), widgets->w_cur_speed_speed,
- widgets->w_show_sd_gps_speed, TRUE,
- NULL, FALSE);
+ _("<b>Track Distance:</b>"), widgets->w_cur_speed_dist,
+ _("<b>Track Speed:</b>"), widgets->w_cur_speed_speed,
+ NULL, NULL,
+ widgets->w_show_sd_gps_speed, show_sd_gps_speed,
+ NULL, FALSE);
g_signal_connect (widgets->w_show_sd_gps_speed, "toggled", G_CALLBACK (checkbutton_toggle_cb), widgets);
gtk_notebook_append_page(GTK_NOTEBOOK(graphs), page, gtk_label_new(_("Speed-distance")));
}
- gtk_box_pack_start (GTK_BOX(GTK_DIALOG(dialog)->vbox), graphs, FALSE, FALSE, 0);
+ gtk_box_pack_start (GTK_BOX(gtk_dialog_get_content_area(GTK_DIALOG(dialog))), graphs, FALSE, FALSE, 0);
gtk_dialog_set_response_sensitive(GTK_DIALOG(dialog), VIK_TRW_LAYER_PROPWIN_SPLIT_MARKER, FALSE);
if (seg_count <= 1)
if (vik_track_get_dup_point_count(tr) <= 0)
gtk_dialog_set_response_sensitive(GTK_DIALOG(dialog), VIK_TRW_LAYER_PROPWIN_DEL_DUP, FALSE);
- // On dialog realization configure_event casues the graphs to be initially drawn
+ // On dialog realization configure_event causes the graphs to be initially drawn
widgets->configure_dialog = TRUE;
g_signal_connect ( G_OBJECT(dialog), "configure-event", G_CALLBACK (configure_event), widgets );
vik_track_set_property_dialog(tr, dialog);
gtk_dialog_set_default_response ( GTK_DIALOG(dialog), GTK_RESPONSE_ACCEPT );
gtk_widget_show_all ( dialog );
+
+ // Gtk note: due to historical reasons, this must be done after widgets are shown
+ if ( start_on_stats )
+ gtk_notebook_set_current_page ( GTK_NOTEBOOK(graphs), 1 );
}