diff options
author | info-cppsp <[email protected]> | 2017-11-18 16:24:13 +0100 |
---|---|---|
committer | raveit65 <[email protected]> | 2017-11-26 20:41:43 +0100 |
commit | e493e98f479c5559adfe2451b6c80bf87318149a (patch) | |
tree | 203746167797b3010e6ddc2f8dc3d2a918a1db9e /sensors-applet/active-sensor.c | |
parent | 287eeb06149861d8a56de73b2c897ebac95e48b0 (diff) | |
download | mate-sensors-applet-e493e98f479c5559adfe2451b6c80bf87318149a.tar.bz2 mate-sensors-applet-e493e98f479c5559adfe2451b6c80bf87318149a.tar.xz |
Fix indents 06
Diffstat (limited to 'sensors-applet/active-sensor.c')
-rw-r--r-- | sensors-applet/active-sensor.c | 1303 |
1 files changed, 644 insertions, 659 deletions
diff --git a/sensors-applet/active-sensor.c b/sensors-applet/active-sensor.c index f4097a3..cf53dd2 100644 --- a/sensors-applet/active-sensor.c +++ b/sensors-applet/active-sensor.c @@ -34,11 +34,11 @@ #include "sensors-applet-settings.h" typedef enum { - VERY_LOW_SENSOR_VALUE = 0, - LOW_SENSOR_VALUE, - NORMAL_SENSOR_VALUE, - HIGH_SENSOR_VALUE, - VERY_HIGH_SENSOR_VALUE + VERY_LOW_SENSOR_VALUE = 0, + LOW_SENSOR_VALUE, + NORMAL_SENSOR_VALUE, + HIGH_SENSOR_VALUE, + VERY_HIGH_SENSOR_VALUE } SensorValueRange; /* Cast a given value to a valid SensorValueRange */ @@ -47,140 +47,142 @@ typedef enum { #define CAIRO_GRAPH_COLOR_GRADIENT 0.4 static const gchar * const temp_overlay_icons[] = { - PIXMAPS_DIR "very-low-temp-icon.png", - PIXMAPS_DIR "low-temp-icon.png", - PIXMAPS_DIR "normal-temp-icon.png", - PIXMAPS_DIR "high-temp-icon.png", - PIXMAPS_DIR "very-high-temp-icon.png" + PIXMAPS_DIR "very-low-temp-icon.png", + PIXMAPS_DIR "low-temp-icon.png", + PIXMAPS_DIR "normal-temp-icon.png", + PIXMAPS_DIR "high-temp-icon.png", + PIXMAPS_DIR "very-high-temp-icon.png" }; + static gdouble sensor_value_range_normalised(gdouble value, gdouble low_value, gdouble high_value) { - return ((value - low_value)/(high_value - low_value)); + + return ((value - low_value)/(high_value - low_value)); } static SensorValueRange sensor_value_range(gdouble sensor_value, - gdouble low_value, - gdouble high_value) { - gdouble range; - range = sensor_value_range_normalised(sensor_value, low_value, high_value)*(gdouble)(VERY_HIGH_SENSOR_VALUE); - - /* check if need to round up, otherwise let int conversion - * round down for us and make sure it is a valid range - * value */ - return SENSOR_VALUE_RANGE(((gint)range + ((range - ((gint)range)) >= 0.5))); -} + gdouble low_value, + gdouble high_value) { + gdouble range; + range = sensor_value_range_normalised(sensor_value, low_value, high_value)*(gdouble)(VERY_HIGH_SENSOR_VALUE); + + /* check if need to round up, otherwise let int conversion + * round down for us and make sure it is a valid range + * value */ + return SENSOR_VALUE_RANGE(((gint)range + ((range - ((gint)range)) >= 0.5))); +} static gboolean active_sensor_execute_alarm(ActiveSensor *active_sensor, NotifType notif_type) { - gboolean ret; - GError *error = NULL; - sensors_applet_notify_active_sensor(active_sensor, notif_type); - g_debug("EXECUTING %s ALARM: %s", - (notif_type == LOW_ALARM ? - "LOW" : "HIGH"), - active_sensor->alarm_command[notif_type]); - ret = g_spawn_command_line_async (active_sensor->alarm_command[notif_type], &error); - g_debug("Command executed in shell"); + gboolean ret; + GError *error = NULL; - if (error) - g_error_free (error); + sensors_applet_notify_active_sensor(active_sensor, notif_type); + g_debug("EXECUTING %s ALARM: %s", + (notif_type == LOW_ALARM ? + "LOW" : "HIGH"), + active_sensor->alarm_command[notif_type]); + ret = g_spawn_command_line_async (active_sensor->alarm_command[notif_type], &error); + g_debug("Command executed in shell"); - return ret; + if (error) + g_error_free (error); + + return ret; } static gboolean active_sensor_execute_low_alarm(ActiveSensor *active_sensor) { - return active_sensor_execute_alarm(active_sensor, LOW_ALARM); + return active_sensor_execute_alarm(active_sensor, LOW_ALARM); } static gboolean active_sensor_execute_high_alarm(ActiveSensor *active_sensor) { - return active_sensor_execute_alarm(active_sensor, HIGH_ALARM); + return active_sensor_execute_alarm(active_sensor, HIGH_ALARM); } -/* needs to be able to be called by the config dialog when the alarm - * command changes */ +/* needs to be able to be called by the config dialog when the alarm command changes */ void active_sensor_alarm_off(ActiveSensor *active_sensor, NotifType notif_type) { - g_assert(active_sensor); - - if (active_sensor->alarm_timeout_id[notif_type] != -1) { - g_debug("Disabling %s alarm.", - (notif_type == LOW_ALARM ? "LOW" : "HIGH")); - if (!g_source_remove(active_sensor->alarm_timeout_id[notif_type])) { - g_debug("Error removing alarm source"); - } - g_free(active_sensor->alarm_command[notif_type]); - active_sensor->alarm_timeout_id[notif_type] = -1; - - } - sensors_applet_notify_end(active_sensor, notif_type); + + g_assert(active_sensor); + + if (active_sensor->alarm_timeout_id[notif_type] != -1) { + g_debug("Disabling %s alarm.", (notif_type == LOW_ALARM ? "LOW" : "HIGH")); + if (!g_source_remove(active_sensor->alarm_timeout_id[notif_type])) { + g_debug("Error removing alarm source"); + } + g_free(active_sensor->alarm_command[notif_type]); + active_sensor->alarm_timeout_id[notif_type] = -1; + + } + sensors_applet_notify_end(active_sensor, notif_type); } static void active_sensor_all_alarms_off(ActiveSensor *active_sensor) { - /* turn off any alarms */ - int i; - for (i = 0; i < NUM_ALARMS; i++) { - if (active_sensor->alarm_timeout_id[i] >= 0) { - g_debug("-- turning off notif with type %d ---", i); - active_sensor_alarm_off(active_sensor, i); - } + /* turn off any alarms */ + int i; + for (i = 0; i < NUM_ALARMS; i++) { + if (active_sensor->alarm_timeout_id[i] >= 0) { + g_debug("-- turning off notif with type %d ---", i); + active_sensor_alarm_off(active_sensor, i); } + } } static void active_sensor_alarm_on(ActiveSensor *active_sensor, NotifType notif_type) { - GtkTreeModel *model; - GtkTreePath *tree_path; - GtkTreeIter iter; - - g_assert(active_sensor); - - model = gtk_tree_row_reference_get_model(active_sensor->sensor_row); - tree_path = gtk_tree_row_reference_get_path(active_sensor->sensor_row); - - if (gtk_tree_model_get_iter(model, &iter, tree_path)) { - - if (active_sensor->alarm_timeout_id[notif_type] == -1) { - /* alarm is not currently on */ - gtk_tree_model_get(model, - &iter, - (notif_type == LOW_ALARM ? - LOW_ALARM_COMMAND_COLUMN : - HIGH_ALARM_COMMAND_COLUMN), - &(active_sensor->alarm_command[notif_type]), - ALARM_TIMEOUT_COLUMN, &(active_sensor->alarm_timeout), - -1); - g_debug("Activating alarm to repeat every %d seconds", active_sensor->alarm_timeout); - - /* execute alarm once, then add to time to - keep repeating it */ - active_sensor_execute_alarm(active_sensor, notif_type); - int timeout = (active_sensor->alarm_timeout <= 0 ? - G_MAXINT : - active_sensor->alarm_timeout); - switch (notif_type) { - case LOW_ALARM: - active_sensor->alarm_timeout_id[notif_type] = g_timeout_add_seconds(timeout, - (GSourceFunc)active_sensor_execute_low_alarm, - active_sensor); - break; - case HIGH_ALARM: - active_sensor->alarm_timeout_id[notif_type] = g_timeout_add_seconds(timeout, - (GSourceFunc)active_sensor_execute_high_alarm, - active_sensor); - break; - default: - g_debug("Unknown notif type: %d", notif_type); - } - - - } - } - gtk_tree_path_free(tree_path); - + + GtkTreeModel *model; + GtkTreePath *tree_path; + GtkTreeIter iter; + + g_assert(active_sensor); + + model = gtk_tree_row_reference_get_model(active_sensor->sensor_row); + tree_path = gtk_tree_row_reference_get_path(active_sensor->sensor_row); + + if (gtk_tree_model_get_iter(model, &iter, tree_path)) { + + if (active_sensor->alarm_timeout_id[notif_type] == -1) { + /* alarm is not currently on */ + gtk_tree_model_get(model, + &iter, + (notif_type == LOW_ALARM ? + LOW_ALARM_COMMAND_COLUMN : + HIGH_ALARM_COMMAND_COLUMN), + &(active_sensor->alarm_command[notif_type]), + ALARM_TIMEOUT_COLUMN, &(active_sensor->alarm_timeout), + -1); + + g_debug("Activating alarm to repeat every %d seconds", active_sensor->alarm_timeout); + + /* execute alarm once, then add to time to keep repeating it */ + active_sensor_execute_alarm(active_sensor, notif_type); + int timeout = (active_sensor->alarm_timeout <= 0 ? G_MAXINT : active_sensor->alarm_timeout); + switch (notif_type) { + case LOW_ALARM: + active_sensor->alarm_timeout_id[notif_type] = g_timeout_add_seconds(timeout, + (GSourceFunc)active_sensor_execute_low_alarm, + active_sensor); + break; + + case HIGH_ALARM: + active_sensor->alarm_timeout_id[notif_type] = g_timeout_add_seconds(timeout, + (GSourceFunc)active_sensor_execute_high_alarm, + active_sensor); + break; + + default: + g_debug("Unknown notif type: %d", notif_type); + } + + } + } + + gtk_tree_path_free(tree_path); } /** @@ -188,625 +190,608 @@ static void active_sensor_alarm_on(ActiveSensor *active_sensor, * 0 if refer to same row, 1 if b comes before a */ gint active_sensor_compare(ActiveSensor *a, ActiveSensor *b) { - GtkTreePath *a_tree_path, *b_tree_path; - gint ret_val; + GtkTreePath *a_tree_path, *b_tree_path; + gint ret_val; - g_assert(a); - g_assert(b); + g_assert(a); + g_assert(b); - a_tree_path = gtk_tree_row_reference_get_path(a->sensor_row); - b_tree_path = gtk_tree_row_reference_get_path(b->sensor_row); + a_tree_path = gtk_tree_row_reference_get_path(a->sensor_row); + b_tree_path = gtk_tree_row_reference_get_path(b->sensor_row); - ret_val = gtk_tree_path_compare(a_tree_path, b_tree_path); + ret_val = gtk_tree_path_compare(a_tree_path, b_tree_path); - gtk_tree_path_free(a_tree_path); - gtk_tree_path_free(b_tree_path); + gtk_tree_path_free(a_tree_path); + gtk_tree_path_free(b_tree_path); - return ret_val; + return ret_val; } -static void active_sensor_update_icon(ActiveSensor *active_sensor, - GdkPixbuf *base_icon, +static void active_sensor_update_icon(ActiveSensor *active_sensor, + GdkPixbuf *base_icon, SensorType sensor_type) { - GdkPixbuf *overlay_icon, *new_icon; - const gchar *overlay_icon_filename = NULL; - SensorValueRange value_range; - - g_assert(active_sensor); - - /* select overlay icon - * depending on sensor - * value */ - value_range = sensor_value_range(active_sensor->sensor_values[0], - active_sensor->sensor_low_value, - active_sensor->sensor_high_value); - - if (sensor_type == TEMP_SENSOR) { - overlay_icon_filename = temp_overlay_icons[value_range]; - } - - /* load base icon */ - new_icon = gdk_pixbuf_copy(base_icon); - - /* only load overlay if required */ - if (overlay_icon_filename) { - overlay_icon = gdk_pixbuf_new_from_file_at_size(overlay_icon_filename, - DEFAULT_ICON_SIZE, - DEFAULT_ICON_SIZE, - NULL); - if (overlay_icon) { - gdk_pixbuf_composite(overlay_icon, new_icon, - 0, 0, - DEFAULT_ICON_SIZE, DEFAULT_ICON_SIZE, - 0, 0, - 1.0, 1.0, - GDK_INTERP_BILINEAR, - 255); - - g_object_unref(overlay_icon); - } - } - gtk_image_set_from_pixbuf(GTK_IMAGE(active_sensor->icon), - new_icon); - g_object_unref(new_icon); - + GdkPixbuf *overlay_icon, *new_icon; + const gchar *overlay_icon_filename = NULL; + SensorValueRange value_range; + + g_assert(active_sensor); + + /* select overlay icon depending on sensor value */ + value_range = sensor_value_range(active_sensor->sensor_values[0], + active_sensor->sensor_low_value, + active_sensor->sensor_high_value); + + if (sensor_type == TEMP_SENSOR) { + overlay_icon_filename = temp_overlay_icons[value_range]; + } + + /* load base icon */ + new_icon = gdk_pixbuf_copy(base_icon); + + /* only load overlay if required */ + if (overlay_icon_filename) { + overlay_icon = gdk_pixbuf_new_from_file_at_size(overlay_icon_filename, + DEFAULT_ICON_SIZE, + DEFAULT_ICON_SIZE, + NULL); + + if (overlay_icon) { + gdk_pixbuf_composite(overlay_icon, new_icon, + 0, 0, + DEFAULT_ICON_SIZE, DEFAULT_ICON_SIZE, + 0, 0, + 1.0, 1.0, + GDK_INTERP_BILINEAR, + 255); + + g_object_unref(overlay_icon); + } + } + + gtk_image_set_from_pixbuf(GTK_IMAGE(active_sensor->icon), + new_icon); + g_object_unref(new_icon); + } static void active_sensor_update_graph(ActiveSensor *as, cairo_t *cr) { - GtkAllocation allocation; - gdouble line_height; - gdouble width, height; - gdouble x, y; - cairo_pattern_t *pattern; - gint i; - - gtk_widget_get_allocation (as->graph, &allocation); - width = allocation.width; - height = allocation.height; - - /* so we can set a clipping area, as well as fill the - * back of the graph black */ - cairo_rectangle(cr, - 0, 0, - width, - height); - /* clip to rectangle and keep it as a path so can be - * filled below */ - cairo_clip_preserve(cr); - - /* use black for bg color of graphs */ - cairo_set_source_rgb(cr, 0.0, 0.0, 0.0); - cairo_fill(cr); - - - /* determine height to scale line at for each value - - * only do as many as will fit or the number of - * samples that we have */ - for (i = 0; i < MIN(as->num_samples, width); i++) { - /* need to remove one more to make it line up - * properly when drawing */ - x = width - i - 1; - y = height; - - line_height = sensor_value_range_normalised(as->sensor_values[i], - as->sensor_low_value, - as->sensor_high_value) * height; - - - - if (line_height > 0) { - cairo_move_to(cr, - x, - y); - cairo_line_to(cr, x, - y - line_height); - } - + GtkAllocation allocation; + gdouble line_height; + gdouble width, height; + gdouble x, y; + cairo_pattern_t *pattern; + gint i; + + gtk_widget_get_allocation (as->graph, &allocation); + width = allocation.width; + height = allocation.height; + + /* so we can set a clipping area, as well as fill the * back of the graph black */ + cairo_rectangle(cr, + 0, 0, + width, + height); + /* clip to rectangle and keep it as a path so can be + * filled below */ + cairo_clip_preserve(cr); + + /* use black for bg color of graphs */ + cairo_set_source_rgb(cr, 0.0, 0.0, 0.0); + cairo_fill(cr); + + /* determine height to scale line at for each value - + * only do as many as will fit or the number of + * samples that we have */ + for (i = 0; i < MIN(as->num_samples, width); i++) { + /* need to remove one more to make it line up + * properly when drawing */ + x = width - i - 1; + y = height; + + line_height = sensor_value_range_normalised(as->sensor_values[i], + as->sensor_low_value, + as->sensor_high_value) * height; + + if (line_height > 0) { + cairo_move_to(cr, x, y); + cairo_line_to(cr, x, y - line_height); } - /* make lines a gradient from slightly darker than - * chosen color at bottom of graph, to slightly - * lighter than chosen color at top of graph */ - pattern = cairo_pattern_create_linear(x, y, - x, 0); - cairo_pattern_add_color_stop_rgb(pattern, - 0, - as->graph_color.red - CAIRO_GRAPH_COLOR_GRADIENT, - as->graph_color.green - CAIRO_GRAPH_COLOR_GRADIENT, - as->graph_color.blue - CAIRO_GRAPH_COLOR_GRADIENT); - - cairo_pattern_add_color_stop_rgb(pattern, - height, - as->graph_color.red + CAIRO_GRAPH_COLOR_GRADIENT, - as->graph_color.green + CAIRO_GRAPH_COLOR_GRADIENT, - as->graph_color.blue + CAIRO_GRAPH_COLOR_GRADIENT); - - cairo_set_source(cr, pattern); - cairo_stroke(cr); - cairo_pattern_destroy(pattern); + } + + /* make lines a gradient from slightly darker than + * chosen color at bottom of graph, to slightly + * lighter than chosen color at top of graph */ + pattern = cairo_pattern_create_linear(x, y, x, 0); + cairo_pattern_add_color_stop_rgb(pattern, + 0, + as->graph_color.red - CAIRO_GRAPH_COLOR_GRADIENT, + as->graph_color.green - CAIRO_GRAPH_COLOR_GRADIENT, + as->graph_color.blue - CAIRO_GRAPH_COLOR_GRADIENT); + + cairo_pattern_add_color_stop_rgb(pattern, + height, + as->graph_color.red + CAIRO_GRAPH_COLOR_GRADIENT, + as->graph_color.green + CAIRO_GRAPH_COLOR_GRADIENT, + as->graph_color.blue + CAIRO_GRAPH_COLOR_GRADIENT); + + cairo_set_source(cr, pattern); + cairo_stroke(cr); + cairo_pattern_destroy(pattern); } void active_sensor_destroy(ActiveSensor *active_sensor) { - g_debug("-- destroying active sensor label..."); - gtk_widget_destroy(active_sensor->label); + g_debug("-- destroying active sensor label..."); + gtk_widget_destroy(active_sensor->label); - g_debug("-- destroying active sensor icon.."); - gtk_widget_destroy(active_sensor->icon); + g_debug("-- destroying active sensor icon.."); + gtk_widget_destroy(active_sensor->icon); - g_debug("-- destroying active sensor value..."); - gtk_widget_destroy(active_sensor->value); + g_debug("-- destroying active sensor value..."); + gtk_widget_destroy(active_sensor->value); - g_debug("-- destroying active sensor graph and frame..."); - gtk_widget_destroy(active_sensor->graph); - gtk_widget_destroy(active_sensor->graph_frame); + g_debug("-- destroying active sensor graph and frame..."); + gtk_widget_destroy(active_sensor->graph); + gtk_widget_destroy(active_sensor->graph_frame); - g_debug("-- destroying active sensor values..."); - g_free(active_sensor->sensor_values); + g_debug("-- destroying active sensor values..."); + g_free(active_sensor->sensor_values); - active_sensor_all_alarms_off(active_sensor); + active_sensor_all_alarms_off(active_sensor); - g_free(active_sensor); + g_free(active_sensor); } gboolean graph_draw_cb(GtkWidget *graph, cairo_t *cr, gpointer data) { - ActiveSensor *as; - as = (ActiveSensor *)data; + ActiveSensor *as; + + as = (ActiveSensor *)data; - active_sensor_update_graph(as, cr); - /* propagate event onwards */ + active_sensor_update_graph(as, cr); + /* propagate event onwards */ - return FALSE; + return FALSE; } static void active_sensor_set_graph_dimensions(ActiveSensor *as, gint width, gint height) { - gdouble *old_values; - gint num_samples, old_num_samples; - gint graph_width, graph_height; - - /* dimensions are really for graph frame, so need to remove - * extra width added by graph frame - make sure not less than - * 1 - always need atleast 1 sample */ - graph_width = CLAMP(width - GRAPH_FRAME_EXTRA_WIDTH, 1, width - GRAPH_FRAME_EXTRA_WIDTH); - graph_height = CLAMP(height - GRAPH_FRAME_EXTRA_WIDTH, 1 , height - GRAPH_FRAME_EXTRA_WIDTH); - - g_debug("setting graph dimensions to %d x %d", graph_width, graph_height); - num_samples = graph_width; - - if (as->sensor_values) { - old_values = as->sensor_values; - old_num_samples = as->num_samples; - - as->num_samples = num_samples; - as->sensor_values = g_malloc0(sizeof(gdouble)*as->num_samples); - memcpy(as->sensor_values, - old_values, - MIN(old_num_samples, as->num_samples)*sizeof(gdouble)); - - g_free(old_values); - } else { - as->sensor_values = g_malloc0(sizeof(gdouble)*num_samples); - as->num_samples = num_samples; - } - - /* update graph frame size request */ - gtk_widget_set_size_request(as->graph, - graph_width, - graph_height); + + gdouble *old_values; + gint num_samples, old_num_samples; + gint graph_width, graph_height; + + /* dimensions are really for graph frame, so need to remove + * extra width added by graph frame - make sure not less than + * 1 - always need atleast 1 sample */ + graph_width = CLAMP(width - GRAPH_FRAME_EXTRA_WIDTH, 1, width - GRAPH_FRAME_EXTRA_WIDTH); + graph_height = CLAMP(height - GRAPH_FRAME_EXTRA_WIDTH, 1 , height - GRAPH_FRAME_EXTRA_WIDTH); + + g_debug("setting graph dimensions to %d x %d", graph_width, graph_height); + num_samples = graph_width; + + if (as->sensor_values) { + old_values = as->sensor_values; + old_num_samples = as->num_samples; + + as->num_samples = num_samples; + as->sensor_values = g_malloc0(sizeof(gdouble)*as->num_samples); + memcpy(as->sensor_values, + old_values, + MIN(old_num_samples, as->num_samples)*sizeof(gdouble)); + + g_free(old_values); + } else { + as->sensor_values = g_malloc0(sizeof(gdouble)*num_samples); + as->num_samples = num_samples; + } + + /* update graph frame size request */ + gtk_widget_set_size_request(as->graph, + graph_width, + graph_height); } void active_sensor_update_graph_dimensions(ActiveSensor *as, gint sizes[2]) { - active_sensor_set_graph_dimensions(as, sizes[0], sizes[1]); - gtk_widget_queue_draw (as->graph); + + active_sensor_set_graph_dimensions(as, sizes[0], sizes[1]); + gtk_widget_queue_draw (as->graph); } ActiveSensor *active_sensor_new(SensorsApplet *sensors_applet, GtkTreeRowReference *sensor_row) { - ActiveSensor *active_sensor; - MatePanelAppletOrient orient; - gint graph_size; - gboolean horizontal; - g_assert(sensors_applet); - g_assert(sensor_row); + ActiveSensor *active_sensor; + MatePanelAppletOrient orient; + gint graph_size; + gboolean horizontal; - g_debug("creating new active sensor"); + g_assert(sensors_applet); + g_assert(sensor_row); - active_sensor = g_new0(ActiveSensor, 1); - active_sensor->sensors_applet = sensors_applet; + g_debug("creating new active sensor"); - active_sensor->sensor_row = sensor_row; + active_sensor = g_new0(ActiveSensor, 1); + active_sensor->sensors_applet = sensors_applet; - int i; - for (i = 0; i < NUM_NOTIFS; i++) { - active_sensor->alarm_timeout_id[i] = -1; - } + active_sensor->sensor_row = sensor_row; + + int i; + for (i = 0; i < NUM_NOTIFS; i++) { + active_sensor->alarm_timeout_id[i] = -1; + } - active_sensor->label = gtk_label_new(""); - active_sensor->value = gtk_label_new(""); - active_sensor->icon = gtk_image_new(); - - active_sensor->graph = gtk_drawing_area_new(); - active_sensor->graph_frame = gtk_frame_new(NULL); - gtk_frame_set_shadow_type(GTK_FRAME(active_sensor->graph_frame), - GTK_SHADOW_IN); - gtk_container_add(GTK_CONTAINER(active_sensor->graph_frame), - active_sensor->graph); - gtk_widget_add_events(active_sensor->graph_frame, - GDK_ALL_EVENTS_MASK); - - /* need to set size according to orientation */ - orient = mate_panel_applet_get_orient(active_sensor->sensors_applet->applet); - graph_size = g_settings_get_int(active_sensor->sensors_applet->settings, GRAPH_SIZE); - - horizontal = ((orient == MATE_PANEL_APPLET_ORIENT_UP) || - (orient == MATE_PANEL_APPLET_ORIENT_DOWN)); - - active_sensor_set_graph_dimensions(active_sensor, - (horizontal ? graph_size : sensors_applet->size), - (horizontal ? sensors_applet->size : graph_size)); - - g_signal_connect(G_OBJECT(active_sensor->graph), - "draw", - G_CALLBACK(graph_draw_cb), - active_sensor); - - active_sensor->updated = FALSE; - return active_sensor; + active_sensor->label = gtk_label_new(""); + active_sensor->value = gtk_label_new(""); + active_sensor->icon = gtk_image_new(); + + active_sensor->graph = gtk_drawing_area_new(); + active_sensor->graph_frame = gtk_frame_new(NULL); + gtk_frame_set_shadow_type(GTK_FRAME(active_sensor->graph_frame), + GTK_SHADOW_IN); + gtk_container_add(GTK_CONTAINER(active_sensor->graph_frame), + active_sensor->graph); + gtk_widget_add_events(active_sensor->graph_frame, + GDK_ALL_EVENTS_MASK); + + /* need to set size according to orientation */ + orient = mate_panel_applet_get_orient(active_sensor->sensors_applet->applet); + graph_size = g_settings_get_int(active_sensor->sensors_applet->settings, GRAPH_SIZE); + + horizontal = ((orient == MATE_PANEL_APPLET_ORIENT_UP) || + (orient == MATE_PANEL_APPLET_ORIENT_DOWN)); + + active_sensor_set_graph_dimensions(active_sensor, + (horizontal ? graph_size : sensors_applet->size), + (horizontal ? sensors_applet->size : graph_size)); + + g_signal_connect(G_OBJECT(active_sensor->graph), + "draw", + G_CALLBACK(graph_draw_cb), + active_sensor); + + active_sensor->updated = FALSE; + return active_sensor; } static void active_sensor_update_sensor_value(ActiveSensor *as, gdouble sensor_value) { - /* only if have more than 1 sample stored */ - if (as->num_samples > 1) { - memmove(&(as->sensor_values[1]), - as->sensor_values, - (as->num_samples - 1)*sizeof(gdouble)); - } - - as->sensor_values[0] = sensor_value; + /* only if have more than 1 sample stored */ + if (as->num_samples > 1) { + memmove(&(as->sensor_values[1]), + as->sensor_values, + (as->num_samples - 1)*sizeof(gdouble)); + } + + as->sensor_values[0] = sensor_value; } -void active_sensor_update(ActiveSensor *active_sensor, +void active_sensor_update(ActiveSensor *active_sensor, SensorsApplet *sensors_applet) { - GtkTreeModel *model; - GtkTreeIter iter; - GtkTreePath *path; - - /* instance data from the tree for this sensor */ - gchar *sensor_path = NULL; - gchar *sensor_id = NULL; - gchar *sensor_label = NULL; - SensorType sensor_type; - gchar *sensor_interface; - gboolean sensor_enabled; - gdouble sensor_low_value; - gdouble sensor_high_value; - gboolean sensor_alarm_enabled; - gdouble sensor_multiplier; - gdouble sensor_offset; - gdouble sensor_value; - GdkPixbuf *icon_pixbuf; - gchar *graph_color; - gint label_min_width; - gint label_width; - GtkRequisition req; - - /* to build the list of labels as we go */ - gchar *value_text = NULL; - gchar *old_value_text; - - TemperatureScale scale; - DisplayMode display_mode; - - GError *error = NULL; - - gchar *tooltip = NULL; - gchar *value_tooltip = NULL; - - /* hidden gsettings options */ - gint font_size = 0; - gboolean hide_units = FALSE; - gboolean hide_units_old = FALSE; - - g_assert(active_sensor); - g_assert(active_sensor->sensor_row); - g_assert(sensors_applet); - - model = gtk_tree_row_reference_get_model(active_sensor->sensor_row); - path = gtk_tree_row_reference_get_path(active_sensor->sensor_row); - - /* if can successfully get iter can proceed */ - if (gtk_tree_model_get_iter(model, &iter, path)) { - gtk_tree_path_free(path); - gtk_tree_model_get(GTK_TREE_MODEL(sensors_applet->sensors), - &iter, - PATH_COLUMN, &sensor_path, - ID_COLUMN, &sensor_id, - LABEL_COLUMN, &sensor_label, - INTERFACE_COLUMN, &sensor_interface, - SENSOR_TYPE_COLUMN, &sensor_type, - ENABLE_COLUMN, &sensor_enabled, - LOW_VALUE_COLUMN, &sensor_low_value, - HIGH_VALUE_COLUMN, &sensor_high_value, - ALARM_ENABLE_COLUMN, &sensor_alarm_enabled, - MULTIPLIER_COLUMN, &sensor_multiplier, - OFFSET_COLUMN, &sensor_offset, - ICON_PIXBUF_COLUMN, &icon_pixbuf, - GRAPH_COLOR_COLUMN, &graph_color, - -1); - - - SensorsAppletPluginGetSensorValue get_sensor_value; - /* only call function if is in hash table for plugin */ - if ((get_sensor_value = sensors_applet_plugins_get_sensor_value_func(sensors_applet, sensor_interface)) != NULL) { - sensor_value = get_sensor_value(sensor_path, - sensor_id, - sensor_type, - &error); - - - if (error) { - g_debug("Error updating active sensor: %s", error->message); - sensors_applet_notify_active_sensor(active_sensor, - SENSOR_INTERFACE_ERROR); - - /* hard code text as ERROR */ - value_text = g_strdup(_("ERROR")); - value_tooltip = g_strdup_printf("- %s", error->message); - g_error_free(error); - error = NULL; - - /* set sensor value to an error code - - * note this is not unique */ - sensor_value = -1; - } else { - /* use hidden gsettings key for hide_units */ - hide_units_old = hide_units; - hide_units = g_settings_get_boolean(sensors_applet->settings, HIDE_UNITS); - - /* scale value and set text using this - * value */ - switch (sensor_type) { - case TEMP_SENSOR: - - scale = (TemperatureScale) g_settings_get_int(sensors_applet->settings, TEMPERATURE_SCALE); - /* scale value */ - sensor_value = sensors_applet_convert_temperature(sensor_value, - CELSIUS, - scale); - - sensor_value = (sensor_value * sensor_multiplier) + sensor_offset; - switch (scale) { - case FAHRENHEIT: - value_text = g_strdup_printf("%2.0f %s", sensor_value, (hide_units ? "" : UNITS_FAHRENHEIT)); - /* tooltip should - * always display - * units */ - value_tooltip = g_strdup_printf("%2.0f %s", sensor_value, UNITS_FAHRENHEIT); - - break; - case CELSIUS: - value_text = g_strdup_printf("%2.0f %s", sensor_value, (hide_units ? "" : UNITS_CELSIUS)); - value_tooltip = g_strdup_printf("%2.0f %s", sensor_value, UNITS_CELSIUS); - break; - case KELVIN: - value_text = g_strdup_printf("%2.0f", sensor_value); - value_tooltip = g_strdup(value_text); - break; - } - break; - - case FAN_SENSOR: - sensor_value = (sensor_value * sensor_multiplier) + sensor_offset; - value_text = g_strdup_printf("%4.0f %s", sensor_value, (hide_units ? "" : UNITS_RPM)); - value_tooltip = g_strdup_printf("%4.0f %s", sensor_value, UNITS_RPM); - - break; - - case VOLTAGE_SENSOR: - sensor_value = (sensor_value * sensor_multiplier) + sensor_offset; - value_text = g_strdup_printf("%4.2f %s", sensor_value, (hide_units ? "" : UNITS_VOLTAGE)); - value_tooltip = g_strdup_printf("%4.2f %s", sensor_value, UNITS_VOLTAGE); - - break; - - case CURRENT_SENSOR: - sensor_value = (sensor_value * sensor_multiplier) + sensor_offset; - value_text = g_strdup_printf("%4.2f %s", sensor_value, (hide_units ? "" : UNITS_CURRENT)); - value_tooltip = g_strdup_printf("%4.2f %s", sensor_value, UNITS_CURRENT); - break; - - } /* end switch(sensor_type) */ - } /* end else on error */ - - /* setup for tooltips */ - if (sensors_applet->show_tooltip) - tooltip = g_strdup_printf("%s %s", sensor_label, value_tooltip); - g_free(value_tooltip); - - /* only do icons and labels / graphs if needed */ - display_mode = g_settings_get_int (sensors_applet->settings, DISPLAY_MODE); - - /* most users wont have a font size set */ - font_size = g_settings_get_int (sensors_applet->settings, FONT_SIZE); - - - /* do icon if needed */ - if (display_mode == DISPLAY_ICON || - display_mode == DISPLAY_ICON_WITH_VALUE) { - /* update icon if icon range has changed if no - * update has been done before */ - if ((sensor_value_range(sensor_value, sensor_low_value, sensor_high_value) != sensor_value_range(active_sensor->sensor_values[0], active_sensor->sensor_low_value, active_sensor->sensor_high_value)) || !(active_sensor->updated)) { - active_sensor_update_sensor_value(active_sensor, - sensor_value); - active_sensor->sensor_low_value = sensor_low_value; - active_sensor->sensor_high_value = sensor_high_value; - active_sensor_update_icon(active_sensor, icon_pixbuf, sensor_type); - } - if (tooltip) { - gtk_widget_set_tooltip_text(active_sensor->icon, - tooltip); - } - } - active_sensor_update_sensor_value(active_sensor, - sensor_value); - active_sensor->sensor_low_value = sensor_low_value; - active_sensor->sensor_high_value = sensor_high_value; - - /* do graph if needed */ - if (display_mode == DISPLAY_GRAPH) { - /* update graph color in case has changed */ - gdk_rgba_parse(&(active_sensor->graph_color), - graph_color); - - gtk_widget_queue_draw (active_sensor->graph); - if (tooltip) { - gtk_widget_set_tooltip_text(active_sensor->graph, - tooltip); - } - + GtkTreeModel *model; + GtkTreeIter iter; + GtkTreePath *path; + + /* instance data from the tree for this sensor */ + gchar *sensor_path = NULL; + gchar *sensor_id = NULL; + gchar *sensor_label = NULL; + SensorType sensor_type; + gchar *sensor_interface; + gboolean sensor_enabled; + gdouble sensor_low_value; + gdouble sensor_high_value; + gboolean sensor_alarm_enabled; + gdouble sensor_multiplier; + gdouble sensor_offset; + gdouble sensor_value; + GdkPixbuf *icon_pixbuf; + gchar *graph_color; + gint label_min_width; + gint label_width; + GtkRequisition req; + + /* to build the list of labels as we go */ + gchar *value_text = NULL; + gchar *old_value_text; + + TemperatureScale scale; + DisplayMode display_mode; + + GError *error = NULL; + + gchar *tooltip = NULL; + gchar *value_tooltip = NULL; + + /* hidden gsettings options */ + gint font_size = 0; + gboolean hide_units = FALSE; + gboolean hide_units_old = FALSE; + + g_assert(active_sensor); + g_assert(active_sensor->sensor_row); + g_assert(sensors_applet); + + model = gtk_tree_row_reference_get_model(active_sensor->sensor_row); + path = gtk_tree_row_reference_get_path(active_sensor->sensor_row); + + /* if can successfully get iter can proceed */ + if (gtk_tree_model_get_iter(model, &iter, path)) { + gtk_tree_path_free(path); + gtk_tree_model_get(GTK_TREE_MODEL(sensors_applet->sensors), + &iter, + PATH_COLUMN, &sensor_path, + ID_COLUMN, &sensor_id, + LABEL_COLUMN, &sensor_label, + INTERFACE_COLUMN, &sensor_interface, + SENSOR_TYPE_COLUMN, &sensor_type, + ENABLE_COLUMN, &sensor_enabled, + LOW_VALUE_COLUMN, &sensor_low_value, + HIGH_VALUE_COLUMN, &sensor_high_value, + ALARM_ENABLE_COLUMN, &sensor_alarm_enabled, + MULTIPLIER_COLUMN, &sensor_multiplier, + OFFSET_COLUMN, &sensor_offset, + ICON_PIXBUF_COLUMN, &icon_pixbuf, + GRAPH_COLOR_COLUMN, &graph_color, + -1); + + SensorsAppletPluginGetSensorValue get_sensor_value; + /* only call function if is in hash table for plugin */ + if ((get_sensor_value = sensors_applet_plugins_get_sensor_value_func(sensors_applet, sensor_interface)) != NULL) { + sensor_value = get_sensor_value(sensor_path, + sensor_id, + sensor_type, + &error); + + if (error) { + g_debug("Error updating active sensor: %s", error->message); + sensors_applet_notify_active_sensor(active_sensor, + SENSOR_INTERFACE_ERROR); + + /* hard code text as ERROR */ + value_text = g_strdup(_("ERROR")); + value_tooltip = g_strdup_printf("- %s", error->message); + g_error_free(error); + error = NULL; + + /* set sensor value to an error code - + * note this is not unique */ + sensor_value = -1; + } else { + /* use hidden gsettings key for hide_units */ + hide_units_old = hide_units; + hide_units = g_settings_get_boolean(sensors_applet->settings, HIDE_UNITS); + + /* scale value and set text using this value */ + switch (sensor_type) { + case TEMP_SENSOR: + scale = (TemperatureScale) g_settings_get_int(sensors_applet->settings, TEMPERATURE_SCALE); + /* scale value */ + sensor_value = sensors_applet_convert_temperature(sensor_value, CELSIUS, scale); + + sensor_value = (sensor_value * sensor_multiplier) + sensor_offset; + switch (scale) { + case FAHRENHEIT: + value_text = g_strdup_printf("%2.0f %s", sensor_value, (hide_units ? "" : UNITS_FAHRENHEIT)); + /* tooltip should + * always display + * units */ + value_tooltip = g_strdup_printf("%2.0f %s", sensor_value, UNITS_FAHRENHEIT); + + break; + case CELSIUS: + value_text = g_strdup_printf("%2.0f %s", sensor_value, (hide_units ? "" : UNITS_CELSIUS)); + value_tooltip = g_strdup_printf("%2.0f %s", sensor_value, UNITS_CELSIUS); + break; + case KELVIN: + value_text = g_strdup_printf("%2.0f", sensor_value); + value_tooltip = g_strdup(value_text); + break; } + break; + + case FAN_SENSOR: + sensor_value = (sensor_value * sensor_multiplier) + sensor_offset; + value_text = g_strdup_printf("%4.0f %s", sensor_value, (hide_units ? "" : UNITS_RPM)); + value_tooltip = g_strdup_printf("%4.0f %s", sensor_value, UNITS_RPM); + break; + + case VOLTAGE_SENSOR: + sensor_value = (sensor_value * sensor_multiplier) + sensor_offset; + value_text = g_strdup_printf("%4.2f %s", sensor_value, (hide_units ? "" : UNITS_VOLTAGE)); + value_tooltip = g_strdup_printf("%4.2f %s", sensor_value, UNITS_VOLTAGE); + break; + + case CURRENT_SENSOR: + sensor_value = (sensor_value * sensor_multiplier) + sensor_offset; + value_text = g_strdup_printf("%4.2f %s", sensor_value, (hide_units ? "" : UNITS_CURRENT)); + value_tooltip = g_strdup_printf("%4.2f %s", sensor_value, UNITS_CURRENT); + break; + + } /* end switch(sensor_type) */ + } /* end else on error */ + + /* setup for tooltips */ + if (sensors_applet->show_tooltip) + tooltip = g_strdup_printf("%s %s", sensor_label, value_tooltip); + g_free(value_tooltip); + + /* only do icons and labels / graphs if needed */ + display_mode = g_settings_get_int (sensors_applet->settings, DISPLAY_MODE); + + /* most users wont have a font size set */ + font_size = g_settings_get_int (sensors_applet->settings, FONT_SIZE); + + /* do icon if needed */ + if (display_mode == DISPLAY_ICON || + display_mode == DISPLAY_ICON_WITH_VALUE) { + + /* update icon if icon range has changed if no + * update has been done before */ + if ((sensor_value_range(sensor_value, sensor_low_value, sensor_high_value) != sensor_value_range(active_sensor->sensor_values[0], active_sensor->sensor_low_value, active_sensor->sensor_high_value)) || + !(active_sensor->updated)) { + + active_sensor_update_sensor_value(active_sensor, sensor_value); + active_sensor->sensor_low_value = sensor_low_value; + active_sensor->sensor_high_value = sensor_high_value; + active_sensor_update_icon(active_sensor, icon_pixbuf, sensor_type); + } - old_value_text = value_text; - - if (sensor_alarm_enabled) { - if (sensor_value >= sensor_high_value || - sensor_value <= sensor_low_value) { - /* make value text red and - * activate alarm */ - if (display_mode == DISPLAY_LABEL_WITH_VALUE || - display_mode == DISPLAY_ICON_WITH_VALUE || - display_mode == DISPLAY_VALUE) { - value_text = g_markup_printf_escaped("<span foreground=\"#FF0000\">%s</span>", old_value_text); - - g_free(old_value_text); - } - /* could have both coditions at once */ - if (sensor_value >= sensor_high_value) { - active_sensor_alarm_on(active_sensor, HIGH_ALARM); - } - - if (sensor_value <= sensor_low_value) { - active_sensor_alarm_on(active_sensor, LOW_ALARM); - } - - } else { - /* make sure alarms are off */ - active_sensor_all_alarms_off(active_sensor); - } - } else { /* else for if alarm enabled */ - /* make sure all alarms are off */ - active_sensor_all_alarms_off(active_sensor); - } - - /* do value label */ - if (display_mode == DISPLAY_LABEL_WITH_VALUE || - display_mode == DISPLAY_ICON_WITH_VALUE || - display_mode == DISPLAY_VALUE) { - if (font_size) { - old_value_text = value_text; - - value_text = g_strdup_printf("<span font_desc=\"%d\">%s</span>", font_size, old_value_text); - g_free(old_value_text); - } - /*Keep the label as large as previous size unless hide_units has changed */ - gtk_widget_get_preferred_size (GTK_WIDGET (active_sensor->value), - &req, NULL); - if (!(hide_units_old == hide_units)){ - label_min_width = 0; - } - else{ - label_min_width = req.width; - } - gtk_label_set_markup(GTK_LABEL(active_sensor->value), - value_text); - gtk_widget_get_preferred_size (GTK_WIDGET (active_sensor->value), - &req, NULL); - label_width = MAX(req.width, label_min_width); - gtk_widget_set_size_request (GTK_WIDGET (active_sensor->value), - label_min_width, req.height); - if (tooltip) { - gtk_widget_set_tooltip_text(active_sensor->value, - tooltip); - } - } - /* finished with value text */ - g_free(value_text); - - /* do label label */ - if (display_mode == DISPLAY_LABEL_WITH_VALUE) { - if (font_size) { - old_value_text = sensor_label; - sensor_label = g_strdup_printf("<span font_desc=\"%d\">%s</span>", font_size, old_value_text); - g_free(old_value_text); - } - gtk_label_set_markup(GTK_LABEL(active_sensor->label), - sensor_label); - if (tooltip) { - gtk_widget_set_tooltip_text(active_sensor->label, - tooltip); - } + if (tooltip) { + gtk_widget_set_tooltip_text(active_sensor->icon, tooltip); + } + } - } + active_sensor_update_sensor_value(active_sensor, sensor_value); + active_sensor->sensor_low_value = sensor_low_value; + active_sensor->sensor_high_value = sensor_high_value; + + /* do graph if needed */ + if (display_mode == DISPLAY_GRAPH) { + /* update graph color in case has changed */ + gdk_rgba_parse(&(active_sensor->graph_color), graph_color); + + gtk_widget_queue_draw (active_sensor->graph); + if (tooltip) { + gtk_widget_set_tooltip_text(active_sensor->graph, tooltip); + } + } - g_free(tooltip); - } else { - g_debug("no get_sensor_value function yet installed for interface %s.", sensor_interface); - } - g_free(sensor_path); - g_free(sensor_id); - g_free(sensor_label); - g_free(sensor_interface); - g_free(graph_color); - g_object_unref(icon_pixbuf); - - } else { - g_debug("Error getting iter when updating sensor..."); - - } - active_sensor->updated = TRUE; + old_value_text = value_text; + + if (sensor_alarm_enabled) { + if (sensor_value >= sensor_high_value || sensor_value <= sensor_low_value) { + + /* make value text red and + * activate alarm */ + if (display_mode == DISPLAY_LABEL_WITH_VALUE || + display_mode == DISPLAY_ICON_WITH_VALUE || + display_mode == DISPLAY_VALUE) { + + value_text = g_markup_printf_escaped("<span foreground=\"#FF0000\">%s</span>", old_value_text); + g_free(old_value_text); + } + + /* could have both coditions at once */ + if (sensor_value >= sensor_high_value) { + active_sensor_alarm_on(active_sensor, HIGH_ALARM); + } + + if (sensor_value <= sensor_low_value) { + active_sensor_alarm_on(active_sensor, LOW_ALARM); + } + + } else { + /* make sure alarms are off */ + active_sensor_all_alarms_off(active_sensor); + } + } else { + /* else for if alarm enabled */ + /* make sure all alarms are off */ + active_sensor_all_alarms_off(active_sensor); + } + + /* do value label */ + if (display_mode == DISPLAY_LABEL_WITH_VALUE || + display_mode == DISPLAY_ICON_WITH_VALUE || + display_mode == DISPLAY_VALUE) { + + if (font_size) { + old_value_text = value_text; + + value_text = g_strdup_printf("<span font_desc=\"%d\">%s</span>", font_size, old_value_text); + g_free(old_value_text); + } + + /*Keep the label as large as previous size unless hide_units has changed */ + gtk_widget_get_preferred_size (GTK_WIDGET (active_sensor->value), &req, NULL); + if (!(hide_units_old == hide_units)) { + label_min_width = 0; + } else { + label_min_width = req.width; + } + + gtk_label_set_markup(GTK_LABEL(active_sensor->value), value_text); + + gtk_widget_get_preferred_size (GTK_WIDGET (active_sensor->value), &req, NULL); + label_width = MAX(req.width, label_min_width); + gtk_widget_set_size_request (GTK_WIDGET (active_sensor->value), label_min_width, req.height); + + if (tooltip) { + gtk_widget_set_tooltip_text(active_sensor->value, tooltip); + } + } + /* finished with value text */ + g_free(value_text); + + /* do label label */ + if (display_mode == DISPLAY_LABEL_WITH_VALUE) { + if (font_size) { + old_value_text = sensor_label; + sensor_label = g_strdup_printf("<span font_desc=\"%d\">%s</span>", font_size, old_value_text); + g_free(old_value_text); + } + + gtk_label_set_markup(GTK_LABEL(active_sensor->label), sensor_label); + if (tooltip) { + gtk_widget_set_tooltip_text(active_sensor->label, tooltip); + } + } + + g_free(tooltip); + } else { + g_debug("no get_sensor_value function yet installed for interface %s.", sensor_interface); + } + + g_free(sensor_path); + g_free(sensor_id); + g_free(sensor_label); + g_free(sensor_interface); + g_free(graph_color); + g_object_unref(icon_pixbuf); + + } else { + g_debug("Error getting iter when updating sensor..."); + } + + active_sensor->updated = TRUE; } /* to be called when the icon within the GtkRowReference that this * sensor references is changed - updates icon based upon value in the * ActiveSensor */ -void active_sensor_icon_changed(ActiveSensor *active_sensor, - SensorsApplet *sensors_applet) { - - GtkTreeModel *model; - GtkTreePath *path; - GtkTreeIter iter; - - SensorType sensor_type; - GdkPixbuf *icon_pixbuf; - - g_assert(active_sensor); - g_assert(sensors_applet); - - model = gtk_tree_row_reference_get_model(active_sensor->sensor_row); - path = gtk_tree_row_reference_get_path(active_sensor->sensor_row); - - /* if can successfully get iter can proceed */ - if (gtk_tree_model_get_iter(model, &iter, path)) { - gtk_tree_model_get(GTK_TREE_MODEL(sensors_applet->sensors), - &iter, - SENSOR_TYPE_COLUMN, &sensor_type, - ICON_PIXBUF_COLUMN, &icon_pixbuf, - -1); - - active_sensor_update_icon(active_sensor, - icon_pixbuf, - sensor_type); - g_object_unref(icon_pixbuf); - } - gtk_tree_path_free(path); +void active_sensor_icon_changed(ActiveSensor *active_sensor, SensorsApplet *sensors_applet) { + + GtkTreeModel *model; + GtkTreePath *path; + GtkTreeIter iter; + + SensorType sensor_type; + GdkPixbuf *icon_pixbuf; + + g_assert(active_sensor); + g_assert(sensors_applet); + + model = gtk_tree_row_reference_get_model(active_sensor->sensor_row); + path = gtk_tree_row_reference_get_path(active_sensor->sensor_row); + + /* if can successfully get iter can proceed */ + if (gtk_tree_model_get_iter(model, &iter, path)) { + gtk_tree_model_get(GTK_TREE_MODEL(sensors_applet->sensors), + &iter, + SENSOR_TYPE_COLUMN, &sensor_type, + ICON_PIXBUF_COLUMN, &icon_pixbuf, + -1); + + active_sensor_update_icon(active_sensor, icon_pixbuf, sensor_type); + g_object_unref(icon_pixbuf); + } + gtk_tree_path_free(path); } |