index ca1121152945109c6d9a14679738c502b2e081cb..4be82339140ad104cb165308dc87aebedd8f9f16 100644 (file)
#include "ege-color-prof-tracker.h"
#include "color-profile-fns.h"
#include "xml/node-observer.h"
+#include "box3d-context.h"
+#include "sp-image.h"
-#if defined (SOLARIS_2_8)
+#if defined (SOLARIS) && (SOLARIS == 8)
#include "round.h"
using Inkscape::round;
#endif
void PrefWatcher::hook(EgeColorProfTracker */*tracker*/, gint screen, gint monitor, PrefWatcher */*watcher*/)
{
+#if ENABLE_LCMS
unsigned char* buf = 0;
guint len = 0;
ege_color_prof_tracker_get_profile_for( screen, monitor, reinterpret_cast<gpointer*>(&buf), &len );
Glib::ustring id = Inkscape::colorprofile_set_display_per( buf, len, screen, monitor );
+#endif // ENABLE_LCMS
}
void PrefWatcher::add( SPDesktopWidget* dtw )
}
}
#else
+ {
(void)node;
(void)name;
- (void)new_value;
#endif // ENABLE_LCMS
}
}
@@ -229,31 +233,34 @@ SPDesktopWidget::setMessage (Inkscape::MessageType type, const gchar *message)
gtk_tooltips_set_tip (this->tt, this->select_status_eventbox, gtk_label_get_text (sb) , NULL);
}
-NR::Point
+Geom::Point
SPDesktopWidget::window_get_pointer()
{
gint x,y;
gdk_window_get_pointer (GTK_WIDGET (canvas)->window, &x, &y, NULL);
- return NR::Point(x,y);
+ return Geom::Point(x,y);
}
/**
* Registers SPDesktopWidget class and returns its type number.
*/
-GtkType
-sp_desktop_widget_get_type (void)
+GType sp_desktop_widget_get_type(void)
{
static GtkType type = 0;
if (!type) {
- static const GtkTypeInfo info = {
- "SPDesktopWidget",
- sizeof (SPDesktopWidget),
- sizeof (SPDesktopWidgetClass),
- (GtkClassInitFunc) sp_desktop_widget_class_init,
- (GtkObjectInitFunc) sp_desktop_widget_init,
- NULL, NULL, NULL
+ GTypeInfo info = {
+ sizeof(SPDesktopWidgetClass),
+ 0, // base_init
+ 0, // base_finalize
+ (GClassInitFunc)sp_desktop_widget_class_init,
+ 0, // class_finalize
+ 0, // class_data
+ sizeof(SPDesktopWidget),
+ 0, // n_preallocs
+ (GInstanceInitFunc)sp_desktop_widget_init,
+ 0 // value_table
};
- type = gtk_type_unique (SP_TYPE_VIEW_WIDGET, &info);
+ type = g_type_register_static(SP_TYPE_VIEW_WIDGET, "SPDesktopWidget", &info, static_cast<GTypeFlags>(0));
}
return type;
}
style = gtk_style_copy (GTK_WIDGET (dtw->canvas)->style);
style->bg[GTK_STATE_NORMAL] = style->white;
gtk_widget_set_style (GTK_WIDGET (dtw->canvas), style);
- if ( prefs_get_int_attribute ("options.useextinput", "value", 1) )
+ if ( prefs_get_int_attribute ("options.useextinput", "value", 1) )
gtk_widget_set_extension_events(GTK_WIDGET (dtw->canvas) , GDK_EXTENSION_EVENTS_ALL); //set extension events for tablets, unless disabled in preferences
g_signal_connect (G_OBJECT (dtw->canvas), "event", G_CALLBACK (sp_desktop_widget_event), dtw);
gtk_table_attach (GTK_TABLE (canvas_tbl), GTK_WIDGET(dtw->canvas), 1, 2, 1, 2, (GtkAttachOptions)(GTK_FILL | GTK_EXPAND), (GtkAttachOptions)(GTK_FILL | GTK_EXPAND), 0, 0);
gtk_box_pack_start(GTK_BOX(dtw->statusbar), GTK_WIDGET(dtw->layer_selector->gobj()), FALSE, FALSE, 1);
dtw->_tracker = ege_color_prof_tracker_new(GTK_WIDGET(dtw->layer_selector->gobj()));
+#if ENABLE_LCMS
{
Glib::ustring id = Inkscape::colorprofile_get_display_id( 0, 0 );
bool enabled = false;
}
cms_adjust_set_sensitive( dtw, enabled );
}
+#endif // ENABLE_LCMS
g_signal_connect( G_OBJECT(dtw->_tracker), "changed", G_CALLBACK(sp_dtw_color_profile_event), dtw );
dtw->select_status_eventbox = gtk_event_box_new ();
: g_basename(uri) );
GString *name = g_string_new ("");
if (this->desktop->number > 1) {
- if (this->desktop->getMode() == RENDERMODE_OUTLINE) {
+ if (this->desktop->getMode() == Inkscape::RENDERMODE_OUTLINE) {
g_string_printf (name, _("%s: %d (outline) - Inkscape"), fname, this->desktop->number);
} else {
g_string_printf (name, _("%s: %d - Inkscape"), fname, this->desktop->number);
}
} else {
- if (this->desktop->getMode() == RENDERMODE_OUTLINE) {
+ if (this->desktop->getMode() == Inkscape::RENDERMODE_OUTLINE) {
g_string_printf (name, _("%s (outline) - Inkscape"), fname);
} else {
g_string_printf (name, _("%s - Inkscape"), fname);
}
if (GTK_WIDGET_REALIZED (widget)) {
- NR::Rect const area = dtw->desktop->get_display_area();
+ Geom::Rect const area = to_2geom(dtw->desktop->get_display_area());
double zoom = dtw->desktop->current_zoom();
if (GTK_WIDGET_CLASS(dtw_parent_class)->size_allocate) {
@@ -657,14 +666,14 @@ sp_desktop_widget_size_allocate (GtkWidget *widget, GtkAllocation *allocation)
if (SP_BUTTON_IS_DOWN(dtw->sticky_zoom)) {
/* Calculate zoom per pixel */
- double const zpsp = zoom / hypot (area.dimensions()[NR::X], area.dimensions()[NR::Y]);
+ double const zpsp = zoom / hypot (area.dimensions()[Geom::X], area.dimensions()[Geom::Y]);
/* Find new visible area */
- NR::Rect newarea = dtw->desktop->get_display_area();
+ Geom::Rect newarea = to_2geom(dtw->desktop->get_display_area());
/* Calculate adjusted zoom */
- zoom = zpsp * hypot(newarea.dimensions()[NR::X], newarea.dimensions()[NR::Y]);
- dtw->desktop->zoom_absolute(newarea.midpoint()[NR::X], newarea.midpoint()[NR::Y], zoom);
+ zoom = zpsp * hypot(newarea.dimensions()[Geom::X], newarea.dimensions()[Geom::Y]);
+ dtw->desktop->zoom_absolute(newarea.midpoint()[Geom::X], newarea.midpoint()[Geom::Y], zoom);
} else {
- dtw->desktop->zoom_absolute(area.midpoint()[NR::X], area.midpoint()[NR::Y], zoom);
+ dtw->desktop->zoom_absolute(area.midpoint()[Geom::X], area.midpoint()[Geom::Y], zoom);
}
} else {
dtw->desktop->set_display_area (d.x0, d.y0, d.x1, d.y1, 10);
+ sp_desktop_widget_update_namedview(dtw);
+}
+
+/* This is just to provide access to common functionality from sp_desktop_widget_realize() above
+ as well as from SPDesktop::change_document() */
+void
+sp_desktop_widget_update_namedview (SPDesktopWidget *dtw) {
+ g_return_if_fail(dtw);
+
/* Listen on namedview modification */
// originally (prior to the sigc++ conversion) the signal was simply
// connected twice rather than disconnecting the first connection
@@ -744,6 +762,7 @@ sp_desktop_widget_event (GtkWidget *widget, GdkEvent *event, SPDesktopWidget *dt
void sp_dtw_color_profile_event(EgeColorProfTracker */*tracker*/, SPDesktopWidget *dtw)
{
+#if ENABLE_LCMS
// Handle profile changes
GdkScreen* screen = gtk_widget_get_screen(GTK_WIDGET(dtw));
gint screenNum = gdk_screen_get_number(screen);
@@ -756,10 +775,12 @@ void sp_dtw_color_profile_event(EgeColorProfTracker */*tracker*/, SPDesktopWidge
enabled = !dtw->canvas->cms_key->empty();
}
cms_adjust_set_sensitive( dtw, enabled );
+#endif // ENABLE_LCMS
}
void cms_adjust_toggled( GtkWidget */*button*/, gpointer data )
{
+#if ENABLE_LCMS
SPDesktopWidget *dtw = SP_DESKTOP_WIDGET(data);
bool down = SP_BUTTON_IS_DOWN(dtw->cms_adjust);
dtw->requestCanvasUpdate();
prefs_set_int_attribute( "options.displayprofile", "enable", down ? 1 : 0 );
}
+#endif // ENABLE_LCMS
}
void cms_adjust_set_sensitive( SPDesktopWidget *dtw, bool enabled )
if (inkscape_is_sole_desktop_for_document(*desktop)) {
SPDocument *doc = desktop->doc();
- if (doc->isModified()) {
+ if (doc->isModifiedSinceSave()) {
GtkWidget *dialog;
/** \todo
}
void
-SPDesktopWidget::setCoordinateStatus(NR::Point p)
+SPDesktopWidget::setCoordinateStatus(Geom::Point p)
{
gchar *cstr;
- cstr = g_strdup_printf("<tt>%7.2f </tt>", dt2r * p[NR::X]);
+ cstr = g_strdup_printf("<tt>%7.2f </tt>", dt2r * p[Geom::X]);
gtk_label_set_markup( GTK_LABEL(this->coord_status_x), cstr );
g_free(cstr);
- cstr = g_strdup_printf("<tt>%7.2f </tt>", dt2r * p[NR::Y]);
+ cstr = g_strdup_printf("<tt>%7.2f </tt>", dt2r * p[Geom::Y]);
gtk_label_set_markup( GTK_LABEL(this->coord_status_y), cstr );
g_free(cstr);
}
}
void
-SPDesktopWidget::setWindowPosition (NR::Point p)
+SPDesktopWidget::setWindowPosition (Geom::Point p)
{
Gtk::Window *window = (Gtk::Window*)gtk_object_get_data (GTK_OBJECT(this), "window");
if (window)
{
- window->move (gint(round(p[NR::X])), gint(round(p[NR::Y])));
+ window->move (gint(round(p[Geom::X])), gint(round(p[Geom::Y])));
}
}
dtw->dt2r = 1.0 / namedview->doc_units->unittobase;
- dtw->ruler_origin = NR::Point(0,0); //namedview->gridorigin; Why was the grid origin used here?
+ dtw->ruler_origin = Geom::Point(0,0); //namedview->gridorigin; Why was the grid origin used here?
dtw->desktop = new SPDesktop();
dtw->stub = new SPDesktopWidget::WidgetStub (dtw);
}
void
-SPDesktopWidget::viewSetPosition (NR::Point p)
+SPDesktopWidget::viewSetPosition (Geom::Point p)
{
- NR::Point const origin = ( p - ruler_origin );
+ Geom::Point const origin = ( p - ruler_origin );
/// \todo fixme:
- GTK_RULER(hruler)->position = origin[NR::X];
+ GTK_RULER(hruler)->position = origin[Geom::X];
gtk_ruler_draw_pos (GTK_RULER (hruler));
- GTK_RULER(vruler)->position = origin[NR::Y];
+ GTK_RULER(vruler)->position = origin[Geom::Y];
gtk_ruler_draw_pos (GTK_RULER (vruler));
}
void
sp_desktop_widget_update_rulers (SPDesktopWidget *dtw)
{
- NR::Rect const viewbox = dtw->canvas->getViewbox();
+ sp_desktop_widget_update_hruler(dtw);
+ sp_desktop_widget_update_vruler(dtw);
+}
+
+void
+sp_desktop_widget_update_hruler (SPDesktopWidget *dtw)
+{
+ /* The viewbox (in integers) must exactly match the size of SPCanvasbuf's pixel buffer.
+ * This is important because the former is being used for drawing the ruler, whereas
+ * the latter is used for drawing e.g. the grids and guides. Only when the viewbox
+ * coincides with the pixel buffer, everything will line up nicely.
+ */
+ NR::IRect viewbox = dtw->canvas->getViewboxIntegers();
+
double const scale = dtw->desktop->current_zoom();
- double s = viewbox.min()[NR::X] / scale - dtw->ruler_origin[NR::X];
- double e = viewbox.max()[NR::X] / scale - dtw->ruler_origin[NR::X];
+ double s = viewbox.min()[Geom::X] / scale - dtw->ruler_origin[Geom::X];
+ double e = viewbox.max()[Geom::X] / scale - dtw->ruler_origin[Geom::X];
gtk_ruler_set_range(GTK_RULER(dtw->hruler), s, e, GTK_RULER(dtw->hruler)->position, (e - s));
- s = viewbox.min()[NR::Y] / -scale - dtw->ruler_origin[NR::Y];
- e = viewbox.max()[NR::Y] / -scale - dtw->ruler_origin[NR::Y];
+}
+
+void
+sp_desktop_widget_update_vruler (SPDesktopWidget *dtw)
+{
+ /* The viewbox (in integers) must exactly match the size of SPCanvasbuf's pixel buffer.
+ * This is important because the former is being used for drawing the ruler, whereas
+ * the latter is used for drawing e.g. the grids and guides. Only when the viewbox
+ * coincides with the pixel buffer, everything will line up nicely.
+ */
+ NR::IRect viewbox = dtw->canvas->getViewboxIntegers();
+
+ double const scale = dtw->desktop->current_zoom();
+ double s = viewbox.min()[Geom::Y] / -scale - dtw->ruler_origin[Geom::Y];
+ double e = viewbox.max()[Geom::Y] / -scale - dtw->ruler_origin[Geom::Y];
gtk_ruler_set_range(GTK_RULER(dtw->vruler), s, e, GTK_RULER(dtw->vruler)->position, (e - s));
}
@@ -1359,7 +1407,7 @@ sp_desktop_widget_namedview_modified (SPObject *obj, guint flags, SPDesktopWidge
SPNamedView *nv=SP_NAMEDVIEW(obj);
if (flags & SP_OBJECT_MODIFIED_FLAG) {
dtw->dt2r = 1.0 / nv->doc_units->unittobase;
- dtw->ruler_origin = NR::Point(0,0); //nv->gridorigin; Why was the grid origin used here?
+ dtw->ruler_origin = Geom::Point(0,0); //nv->gridorigin; Why was the grid origin used here?
sp_ruler_set_metric (GTK_RULER (dtw->vruler), nv->getDefaultMetric());
sp_ruler_set_metric (GTK_RULER (dtw->hruler), nv->getDefaultMetric());
@@ -1382,12 +1430,24 @@ sp_desktop_widget_adjustment_value_changed (GtkAdjustment */*adj*/, SPDesktopWid
sp_canvas_scroll_to (dtw->canvas, dtw->hadj->value, dtw->vadj->value, FALSE);
sp_desktop_widget_update_rulers (dtw);
+ /* update perspective lines if we are in the 3D box tool (so that infinite ones are shown correctly) */
+ sp_box3d_context_update_lines(dtw->desktop->event_context);
+
dtw->update = 0;
}
/* we make the desktop window with focus active, signal is connected in interface.c */
bool SPDesktopWidget::onFocusInEvent(GdkEventFocus*)
{
+
+ if (prefs_get_int_attribute_limited("options.bitmapautoreload", "value", 1, 0, 1)) {
+ GSList const *imageList = sp_document_get_resource_list(desktop->doc(), "image");
+ for (GSList const *p = imageList; p; p = p->next) {
+ SPImage* image = SP_IMAGE(p->data);
+ sp_image_refresh_if_outdated( image );
+ }
+ }
+
inkscape_activate_desktop (desktop);
return false;
SPDesktopWidget *dtw = SP_DESKTOP_WIDGET (data);
SPDesktop *desktop = dtw->desktop;
- NR::Rect const d = desktop->get_display_area();
+ Geom::Rect const d = to_2geom(desktop->get_display_area());
g_signal_handler_block (spin, dtw->zoom_update);
- desktop->zoom_absolute (d.midpoint()[NR::X], d.midpoint()[NR::Y], zoom_factor);
+ desktop->zoom_absolute (d.midpoint()[Geom::X], d.midpoint()[Geom::Y], zoom_factor);
g_signal_handler_unblock (spin, dtw->zoom_update);
spinbutton_defocus (GTK_OBJECT (spin));
@@ -1498,8 +1558,8 @@ sp_dtw_zoom_populate_popup (GtkEntry */*entry*/, GtkMenu *menu, gpointer data)
static void
sp_dtw_zoom_menu_handler (SPDesktop *dt, gdouble factor)
{
- NR::Rect const d = dt->get_display_area();
- dt->zoom_absolute(d.midpoint()[NR::X], d.midpoint()[NR::Y], factor);
+ Geom::Rect const d = to_2geom(dt->get_display_area());
+ dt->zoom_absolute(d.midpoint()[Geom::X], d.midpoint()[Geom::Y], factor);
}
static void
/* The desktop region we always show unconditionally */
SPDocument *doc = dtw->desktop->doc();
- NR::Rect darea(NR::Point(-sp_document_width(doc), -sp_document_height(doc)),
- NR::Point(2 * sp_document_width(doc), 2 * sp_document_height(doc)));
+ NR::Rect darea(Geom::Point(-sp_document_width(doc), -sp_document_height(doc)),
+ Geom::Point(2 * sp_document_width(doc), 2 * sp_document_height(doc)));
darea = NR::union_bounds(darea, sp_item_bbox_desktop(SP_ITEM(SP_DOCUMENT_ROOT(doc))));
/* Canvas region we always show unconditionally */
- NR::Rect carea(NR::Point(darea.min()[NR::X] * scale - 64,
- darea.max()[NR::Y] * -scale - 64),
- NR::Point(darea.max()[NR::X] * scale + 64,
- darea.min()[NR::Y] * -scale + 64));
+ NR::Rect carea(Geom::Point(darea.min()[Geom::X] * scale - 64,
+ darea.max()[Geom::Y] * -scale - 64),
+ Geom::Point(darea.max()[Geom::X] * scale + 64,
+ darea.min()[Geom::Y] * -scale + 64));
NR::Rect viewbox = dtw->canvas->getViewbox();
/* Viewbox is always included into scrollable region */
carea = NR::union_bounds(carea, viewbox);
- set_adjustment(dtw->hadj, carea.min()[NR::X], carea.max()[NR::X],
- viewbox.dimensions()[NR::X],
- 0.1 * viewbox.dimensions()[NR::X],
- viewbox.dimensions()[NR::X]);
- gtk_adjustment_set_value(dtw->hadj, viewbox.min()[NR::X]);
-
- set_adjustment(dtw->vadj, carea.min()[NR::Y], carea.max()[NR::Y],
- viewbox.dimensions()[NR::Y],
- 0.1 * viewbox.dimensions()[NR::Y],
- viewbox.dimensions()[NR::Y]);
- gtk_adjustment_set_value(dtw->vadj, viewbox.min()[NR::Y]);
+ set_adjustment(dtw->hadj, carea.min()[Geom::X], carea.max()[Geom::X],
+ viewbox.dimensions()[Geom::X],
+ 0.1 * viewbox.dimensions()[Geom::X],
+ viewbox.dimensions()[Geom::X]);
+ gtk_adjustment_set_value(dtw->hadj, viewbox.min()[Geom::X]);
+
+ set_adjustment(dtw->vadj, carea.min()[Geom::Y], carea.max()[Geom::Y],
+ viewbox.dimensions()[Geom::Y],
+ 0.1 * viewbox.dimensions()[Geom::Y],
+ viewbox.dimensions()[Geom::Y]);
+ gtk_adjustment_set_value(dtw->vadj, viewbox.min()[Geom::Y]);
dtw->update = 0;
}