* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
+/**
+ * SECTION:gis-viewer
+ * @short_description: Virtual globe base class
+ *
+ * #GisViewer is the base class for the virtual globe widget. It handles
+ * everything not directly related to drawing the globe. Plugins and
+ * applications using the viewer should normally talk to the viewer and not care
+ * how it is implemented.
+ */
+
#include <config.h>
#include <math.h>
#include <gtk/gtk.h>
double lat, lon, elev, pan;
gis_viewer_get_location(viewer, &lat, &lon, &elev);
pan = MIN(elev/(EARTH_R/2), 30);
- guint kv = event->keyval;
- gdk_threads_leave();
- if (kv == GDK_Left || kv == GDK_h) gis_viewer_pan(viewer, 0, -pan, 0);
- else if (kv == GDK_Down || kv == GDK_j) gis_viewer_pan(viewer, -pan, 0, 0);
- else if (kv == GDK_Up || kv == GDK_k) gis_viewer_pan(viewer, pan, 0, 0);
- else if (kv == GDK_Right || kv == GDK_l) gis_viewer_pan(viewer, 0, pan, 0);
- else if (kv == GDK_minus || kv == GDK_o) gis_viewer_zoom(viewer, 10./9);
- else if (kv == GDK_plus || kv == GDK_i) gis_viewer_zoom(viewer, 9./10);
- else if (kv == GDK_H) gis_viewer_rotate(viewer, 0, 0, -2);
- else if (kv == GDK_J) gis_viewer_rotate(viewer, 2, 0, 0);
- else if (kv == GDK_K) gis_viewer_rotate(viewer, -2, 0, 0);
- else if (kv == GDK_L) gis_viewer_rotate(viewer, 0, 0, 2);
+ switch (event->keyval) {
+ case GDK_Left: case GDK_h: gis_viewer_pan(viewer, 0, -pan, 0); break;
+ case GDK_Down: case GDK_j: gis_viewer_pan(viewer, -pan, 0, 0); break;
+ case GDK_Up: case GDK_k: gis_viewer_pan(viewer, pan, 0, 0); break;
+ case GDK_Right: case GDK_l: gis_viewer_pan(viewer, 0, pan, 0); break;
+ case GDK_minus: case GDK_o: gis_viewer_zoom(viewer, 10./9); break;
+ case GDK_plus: case GDK_i: gis_viewer_zoom(viewer, 9./10); break;
+ case GDK_H: gis_viewer_rotate(viewer, 0, 0, -2); break;
+ case GDK_J: gis_viewer_rotate(viewer, 2, 0, 0); break;
+ case GDK_K: gis_viewer_rotate(viewer, -2, 0, 0); break;
+ case GDK_L: gis_viewer_rotate(viewer, 0, 0, 2); break;
+ }
+ return FALSE;
+}
+
+static gboolean on_scroll(GisViewer *viewer, GdkEventScroll *event, gpointer _)
+{
+ switch (event->direction) {
+ case GDK_SCROLL_DOWN: gis_viewer_zoom(viewer, 10./9); break;
+ case GDK_SCROLL_UP: gis_viewer_zoom(viewer, 9./10); break;
+ default: break;
+ }
return FALSE;
}
case 1: viewer->drag_mode = GIS_DRAG_PAN; break;
case 2: viewer->drag_mode = GIS_DRAG_ZOOM; break;
case 3: viewer->drag_mode = GIS_DRAG_TILT; break;
- defualt: viewer->drag_mode = GIS_DRAG_NONE; break;
+ default: viewer->drag_mode = GIS_DRAG_NONE; break;
}
viewer->drag_x = event->x;
viewer->drag_y = event->y;
static gboolean on_motion_notify(GisViewer *viewer, GdkEventMotion *event, gpointer _)
{
- gdouble x_dist = viewer->drag_x - event->x;
- gdouble y_dist = viewer->drag_y - event->y;
+ gdouble x = viewer->drag_x - event->x;
+ gdouble y = viewer->drag_y - event->y;
gdouble lat, lon, elev, scale;
gis_viewer_get_location(GIS_VIEWER(viewer), &lat, &lon, &elev);
scale = elev/EARTH_R/15;
switch (viewer->drag_mode) {
- case GIS_DRAG_PAN:
- gis_viewer_pan(viewer, -y_dist*scale, x_dist*scale, 0);
- break;
- case GIS_DRAG_ZOOM:
- gis_viewer_zoom(viewer, pow(2, -y_dist/500));
- break;
- case GIS_DRAG_TILT:
- gis_viewer_rotate(viewer, y_dist/10, 0, x_dist/10);
- break;
+ case GIS_DRAG_PAN: gis_viewer_pan(viewer, -y*scale, x*scale, 0); break;
+ case GIS_DRAG_ZOOM: gis_viewer_zoom(viewer, pow(2, -y/500)); break;
+ case GIS_DRAG_TILT: gis_viewer_rotate(viewer, y/10, 0, x/10); break;
}
viewer->drag_x = event->x;
viewer->drag_y = event->y;
gtk_widget_queue_draw(GTK_WIDGET(viewer));
}
+static void on_realize(GisViewer *viewer)
+{
+ GdkCursor *cursor = gdk_cursor_new(GDK_FLEUR);
+ GdkWindow *window = gtk_widget_get_window(GTK_WIDGET(viewer));
+ gdk_window_set_cursor(window, cursor);
+}
+
/***********
* Methods *
***********/
+/**
+ * gis_viewer_setup:
+ * @viewer: the viewer
+ * @plugins: a plugins store
+ * @prefs: a prefs store
+ *
+ * This should be called by objects which implement GisViewer somewhere in their
+ * constructor.
+ */
void gis_viewer_setup(GisViewer *viewer, GisPlugins *plugins, GisPrefs *prefs)
{
viewer->plugins = plugins;
viewer->offline = gis_prefs_get_boolean(prefs, "gis/offline", NULL);
}
-void gis_viewer_set_time(GisViewer *viewer, const char *time)
+/**
+ * gis_viewer_set_time:
+ * @viewer: the viewer
+ * @time: the time to set the view to
+ *
+ * Set the current time for the view
+ */
+void gis_viewer_set_time(GisViewer *viewer, time_t time)
{
g_assert(GIS_IS_VIEWER(viewer));
- g_debug("GisViewer: set_time - time=%s", time);
- g_free(viewer->time);
- viewer->time = g_strdup(time);
+ g_debug("GisViewer: set_time - time=%ld", time);
+ viewer->time = time;
_gis_viewer_emit_time_changed(viewer);
}
-gchar *gis_viewer_get_time(GisViewer *viewer)
+/**
+ * gis_viewer_get_time:
+ * @viewer: the viewer
+ *
+ * Get the time that is being viewed
+ *
+ * Returns: the current time
+ */
+time_t gis_viewer_get_time(GisViewer *viewer)
{
g_assert(GIS_IS_VIEWER(viewer));
g_debug("GisViewer: get_time");
return viewer->time;
}
+/**
+ * gis_viewer_set_location:
+ * @viewer: the viewer
+ * @lat: the new latitude
+ * @lon: the new longitude
+ * @elev: the new elevation
+ *
+ * Set the location for the camera
+ */
void gis_viewer_set_location(GisViewer *viewer, gdouble lat, gdouble lon, gdouble elev)
{
g_assert(GIS_IS_VIEWER(viewer));
_gis_viewer_emit_location_changed(viewer);
}
+/**
+ * gis_viewer_get_location:
+ * @viewer: the viewer
+ * @lat: the location to store the latitude
+ * @lon: the location to store the longitude
+ * @elev: the location to store the elevation
+ *
+ * Get the location of the camera
+ */
void gis_viewer_get_location(GisViewer *viewer, gdouble *lat, gdouble *lon, gdouble *elev)
{
g_assert(GIS_IS_VIEWER(viewer));
*elev = viewer->location[2];
}
+/**
+ * gis_viewer_pan:
+ * @viewer: the viewer
+ * @forward: distance to move forward in meters
+ * @right: distance to move right in meters
+ * @up: distance to move up in meters
+ *
+ * Pan the location by a number of meters long the surface.
+ *
+ * Bugs: the distances are not in meters
+ * Bugs: panning does not move in strait lines
+ */
void gis_viewer_pan(GisViewer *viewer, gdouble forward, gdouble sideways, gdouble up)
{
g_assert(GIS_IS_VIEWER(viewer));
gdouble angle1 = deg2rad(viewer->rotation[2]);
gdouble angle2 = atan2(sideways, forward);
gdouble angle = angle1 + angle2;
- g_message("pan: dist=%f, angle=%f+%f=%f move=%f,%f",
- dist, angle1, angle2, angle,
- dist*cos(angle),
- dist*sin(angle));
/* This isn't accurate, but it's usable */
viewer->location[0] += dist*cos(angle);
viewer->location[1] += dist*sin(angle);
_gis_viewer_emit_location_changed(viewer);
}
+/**
+ * gis_viewer_zoom:
+ * @viewer: the viewer
+ * @scale: the scale to multiple the elevation by
+ *
+ * Multiple the elevation by a scale.
+ */
void gis_viewer_zoom(GisViewer *viewer, gdouble scale)
{
g_assert(GIS_IS_VIEWER(viewer));
_gis_viewer_emit_location_changed(viewer);
}
+/**
+ * gis_viewer_set_rotation:
+ * @viewer: the viewer
+ * @x: rotation new around the x axes
+ * @y: rotation new around the y axes
+ * @z: rotation new around the z axes
+ *
+ * Set the rotations in degrees around the x, y, and z axes.
+ */
void gis_viewer_set_rotation(GisViewer *viewer, gdouble x, gdouble y, gdouble z)
{
g_assert(GIS_IS_VIEWER(viewer));
_gis_viewer_emit_rotation_changed(viewer);
}
+/**
+ * gis_viewer_get_rotation:
+ * @viewer: the viewer
+ * @x: rotation around the x axes
+ * @y: rotation around the y axes
+ * @z: rotation around the z axes
+ *
+ * Get the rotations in degrees around the x, y, and z axes.
+ */
void gis_viewer_get_rotation(GisViewer *viewer, gdouble *x, gdouble *y, gdouble *z)
{
g_assert(GIS_IS_VIEWER(viewer));
*z = viewer->rotation[2];
}
+/**
+ * gis_viewer_rotate:
+ * @viewer: the viewer
+ * @x: rotation around the x axes
+ * @y: rotation around the y axes
+ * @z: rotation around the z axes
+ *
+ * Add to the rotation around the x, y, and z axes.
+ */
void gis_viewer_rotate(GisViewer *viewer, gdouble x, gdouble y, gdouble z)
{
g_assert(GIS_IS_VIEWER(viewer));
_gis_viewer_emit_rotation_changed(viewer);
}
+/**
+ * gis_viewer_refresh:
+ * @viewer: the viewer
+ *
+ * Trigger the refresh signal. This will cause any remote data to be checked for
+ * updates.
+ */
void gis_viewer_refresh(GisViewer *viewer)
{
g_debug("GisViewer: refresh");
_gis_viewer_emit_refresh(viewer);
}
+/**
+ * gis_viewer_set_offline:
+ * @viewer: the viewer
+ * @offline: %TRUE to enter offline mode
+ *
+ * Set the offline mode. If @offline is %TRUE, only locally cached data will be
+ * used.
+ */
void gis_viewer_set_offline(GisViewer *viewer, gboolean offline)
{
g_assert(GIS_IS_VIEWER(viewer));
_gis_viewer_emit_offline(viewer);
}
+/**
+ * gis_viewer_get_offline:
+ * @viewer: the viewer
+ *
+ * Check if the viewer is in offline mode.
+ *
+ * Returns: %TRUE if the viewer is in offline mode.
+ */
gboolean gis_viewer_get_offline(GisViewer *viewer)
{
g_assert(GIS_IS_VIEWER(viewer));
return viewer->offline;
}
-/* To be implemented by subclasses */
+/***********************************
+ * To be implemented by subclasses *
+ ***********************************/
+/**
+ * gis_viewer_center_position:
+ * @viewer: the viewer
+ * @lat: the latitude
+ * @lon: the longitude
+ * @elev: the elevation
+ *
+ * Center the viewer on a point. This can be used before drawing operations to
+ * center the items a particular location.
+ */
void gis_viewer_center_position(GisViewer *viewer,
gdouble lat, gdouble lon, gdouble elev)
{
klass->center_position(viewer, lat, lon, elev);
}
+/**
+ * gis_viewer_project:
+ * @viewer: the viewer
+ * @lat: the latitude
+ * @lon: the latitude
+ * @elev: the latitude
+ * @px: the project x coordinate
+ * @py: the project y coordinate
+ * @pz: the project z coordinate
+ *
+ * Project a latitude, longitude, elevation point to to x, y, and z coordinates
+ * in screen space. Useful for drawing orthographic data over a particular point
+ * in space. E.g. #GisMarker.
+ */
void gis_viewer_project(GisViewer *viewer,
gdouble lat, gdouble lon, gdouble elev,
gdouble *px, gdouble *py, gdouble *pz)
klass->project(viewer, lat, lon, elev, px, py, pz);
}
+/**
+ * gis_viewer_clear_height_func:
+ * @viewer: the viewer
+ *
+ * Clears the height function for the entire viewer. Useful when an elevation
+ * plugin is unloaded.
+ */
void gis_viewer_clear_height_func(GisViewer *viewer)
{
GisViewerClass *klass = GIS_VIEWER_GET_CLASS(viewer);
klass->clear_height_func(viewer);
}
+/**
+ * gis_viewer_set_height_func:
+ * @viewer: the viewer
+ * @tile: the area to set the height function for
+ * @height_func: the height function
+ * @user_data: user data to pass to the height function
+ * @update: %TRUE if the heights inside the tile should be updated.
+ *
+ * Set the height function to be used for a given part of the surface..
+ */
void gis_viewer_set_height_func(GisViewer *viewer, GisTile *tile,
GisHeightFunc height_func, gpointer user_data,
gboolean update)
klass->set_height_func(viewer, tile, height_func, user_data, update);
}
+/**
+ * gis_viewer_add:
+ * @viewer: the viewer
+ * @object: the object to add
+ * @level: the level to add the object to
+ * @sort: %TRUE if the object should be depth-sorted prior to being drawn
+ *
+ * Objects which are added to the viewer will be drawn on subsequent renderings
+ * if their level of details is adequate.
+ *
+ * The @level represents the order the object should be drawn in, this is
+ * unrelated to the objects actual position in the world.
+ *
+ * Semi-transparent objects should set @sort to %TRUE so that they are rendered
+ * correctly when they overlap other semi-transparent objects.
+ *
+ * The viewer steals the objects reference. Call g_object_ref if you plan on
+ * holding a reference as well.
+ *
+ * Returns: a handle to be pass to gis_viewer_remove()
+ */
gpointer gis_viewer_add(GisViewer *viewer, GisObject *object,
gint level, gboolean sort)
{
return klass->add(viewer, object, level, sort);
}
+/**
+ * gis_viewer_remove:
+ * @viewer: the viewer
+ * @ref: the handle obtained from gis_viewer_add()
+ *
+ * Remove an object from the viewer. The objects reference count is decremented
+ * prior to being removed.
+ *
+ * Returns: the #GisObject referenced by the handle
+ */
GisObject *gis_viewer_remove(GisViewer *viewer, gpointer ref)
{
GisViewerClass *klass = GIS_VIEWER_GET_CLASS(viewer);
{
g_debug("GisViewer: init");
/* Default values */
- viewer->time = g_strdup("");
+ viewer->time = time(NULL);
viewer->location[0] = 40;
viewer->location[1] = -100;
viewer->location[2] = 1.5*EARTH_R;
GDK_KEY_PRESS_MASK);
g_signal_connect(viewer, "key-press-event", G_CALLBACK(on_key_press), NULL);
+ g_signal_connect(viewer, "scroll-event", G_CALLBACK(on_scroll), NULL);
g_signal_connect(viewer, "button-press-event", G_CALLBACK(on_button_press), NULL);
g_signal_connect(viewer, "button-release-event", G_CALLBACK(on_button_release), NULL);
g_signal_connect(viewer, "location-changed", G_CALLBACK(on_view_changed), NULL);
g_signal_connect(viewer, "rotation-changed", G_CALLBACK(on_view_changed), NULL);
+
+ g_signal_connect(viewer, "realize", G_CALLBACK(on_realize), NULL);
}
static void gis_viewer_finalize(GObject *gobject)
{
g_debug("GisViewer: finalize");
- GisViewer *viewer = GIS_VIEWER(gobject);
- g_free(viewer->time);
G_OBJECT_CLASS(gis_viewer_parent_class)->finalize(gobject);
}
static void gis_viewer_class_init(GisViewerClass *klass)
g_debug("GisViewer: class_init");
GObjectClass *gobject_class = G_OBJECT_CLASS(klass);
gobject_class->finalize = gis_viewer_finalize;
+
+ /**
+ * GisViewer::time-changed:
+ * @viewer: the viewer.
+ * @time: the new time.
+ *
+ * The ::time-changed signal is emitted when the viewers current time
+ * changers.
+ */
signals[SIG_TIME_CHANGED] = g_signal_new(
"time-changed",
G_TYPE_FROM_CLASS(gobject_class),
0,
NULL,
NULL,
- g_cclosure_marshal_VOID__STRING,
+ g_cclosure_marshal_VOID__LONG,
G_TYPE_NONE,
1,
- G_TYPE_STRING);
+ G_TYPE_LONG);
+
+ /**
+ * GisViewer::location-changed:
+ * @viewer: the viewer.
+ * @lat: the new latitude.
+ * @lon: the new longitude.
+ * @elev: the new elevation.
+ *
+ * The ::location-changed signal is emitted when the viewers camera
+ * location changes.
+ */
signals[SIG_LOCATION_CHANGED] = g_signal_new(
"location-changed",
G_TYPE_FROM_CLASS(gobject_class),
G_TYPE_DOUBLE,
G_TYPE_DOUBLE,
G_TYPE_DOUBLE);
+
+ /**
+ * GisViewer::rotation-changed:
+ * @viewer: the viewer.
+ * @x: rotation new around the x axes.
+ * @y: rotation new around the y axes.
+ * @z: rotation new around the z axes.
+ *
+ * The ::rotation-changed signal is emitted when the viewers cameras
+ * rotation changes.
+ */
signals[SIG_ROTATION_CHANGED] = g_signal_new(
"rotation-changed",
G_TYPE_FROM_CLASS(gobject_class),
G_TYPE_DOUBLE,
G_TYPE_DOUBLE,
G_TYPE_DOUBLE);
+
+ /**
+ * GisViewer::refresh:
+ * @viewer: the viewer.
+ *
+ * The ::refresh signal is emitted when a refresh is needed. If you are
+ * using real-time data from a remote server, you should connect to the
+ * refresh signal and update the data when necessary.
+ */
signals[SIG_REFRESH] = g_signal_new(
"refresh",
G_TYPE_FROM_CLASS(gobject_class),
g_cclosure_marshal_VOID__VOID,
G_TYPE_NONE,
0);
+
+ /**
+ * GisViewer::offline:
+ * @viewer: the viewer.
+ * @offline: %TRUE if the viewer going offline.
+ *
+ * The ::offline signal is emitted when the viewers offline mode
+ * changes.
+ */
signals[SIG_OFFLINE] = g_signal_new(
"offline",
G_TYPE_FROM_CLASS(gobject_class),