index c8de868849c18c44da5f0c2a13a1526b1478646a..a558774c451dd35933405a22f40da46d439e5cea 100644 (file)
#include <gtk/gtkmain.h>
#include <gtk/gtksignal.h>
+#include <gtk/gtkversion.h>
#include <gtkmm.h>
#include <libnr/nr-matrix-ops.h>
#include <libnr/nr-convex-hull.h>
#include "prefs-utils.h"
+#include "inkscape.h"
+#include "sodipodi-ctrlrect.h"
+#if ENABLE_LCMS
+#include "color-profile-fns.h"
+#endif // ENABLE_LCMS
+#include "display/rendermode.h"
+#include "libnr/nr-blit.h"
+#include "display/inkscape-cairo.h"
+#include "debug/gdk-event-latency-tracker.h"
-enum {
- RENDERMODE_NORMAL,
- RENDERMODE_NOAA,
- RENDERMODE_OUTLINE
-};
+using Inkscape::Debug::GdkEventLatencyTracker;
+
+// GTK_CHECK_VERSION returns false on failure
+#define HAS_GDK_EVENT_REQUEST_MOTIONS GTK_CHECK_VERSION(2, 12, 0)
+
+// gtk_check_version returns non-NULL on failure
+static bool const HAS_BROKEN_MOTION_HINTS =
+ true || gtk_check_version(2, 12, 0) != NULL || !HAS_GDK_EVENT_REQUEST_MOTIONS;
+
+// Define this to visualize the regions to be redrawn
+//#define DEBUG_REDRAW 1;
+
+// Tiles are a way to minimize the number of redraws, eliminating too small redraws.
+// The canvas stores a 2D array of ints, each representing a TILE_SIZExTILE_SIZE pixels tile.
+// If any part of it is dirtied, the entire tile is dirtied (its int is nonzero) and repainted.
+#define TILE_SIZE 16
-const gint sp_canvas_update_priority = G_PRIORITY_HIGH_IDLE;
+static gint const sp_canvas_update_priority = G_PRIORITY_HIGH_IDLE;
#define SP_CANVAS_WINDOW(c) (((GtkWidget *) (c))->window)
static void sp_canvas_request_update (SPCanvas *canvas);
+static void track_latency(GdkEvent const *event);
static void sp_canvas_item_class_init (SPCanvasItemClass *klass);
static void sp_canvas_item_init (SPCanvasItem *item);
static void sp_canvas_item_dispose (GObject *object);
-static void sp_canvas_item_construct (SPCanvasItem *item, SPCanvasGroup *parent, const gchar *first_arg_name, va_list args);
+static void sp_canvas_item_construct (SPCanvasItem *item, SPCanvasGroup *parent, gchar const *first_arg_name, va_list args);
static int emit_event (SPCanvas *canvas, GdkEvent *event);
{
static GType type = 0;
if (!type) {
- static const GTypeInfo info = {
+ static GTypeInfo const info = {
sizeof (SPCanvasItemClass),
NULL, NULL,
(GClassInitFunc) sp_canvas_item_class_init,
item_signals[ITEM_EVENT] = g_signal_new ("event",
G_TYPE_FROM_CLASS (klass),
G_SIGNAL_RUN_LAST,
- G_STRUCT_OFFSET (SPCanvasItemClass, event),
+ ((glong)((guint8*)&(klass->event) - (guint8*)klass)),
NULL, NULL,
sp_marshal_BOOLEAN__POINTER,
G_TYPE_BOOLEAN, 1,
* Constructs new SPCanvasItem on SPCanvasGroup.
*/
SPCanvasItem *
-sp_canvas_item_new (SPCanvasGroup *parent, GtkType type, const gchar *first_arg_name, ...)
+sp_canvas_item_new (SPCanvasGroup *parent, GtkType type, gchar const *first_arg_name, ...)
{
va_list args;
@@ -179,7 +201,7 @@ sp_canvas_item_new (SPCanvasGroup *parent, GtkType type, const gchar *first_arg_
* We make it static for encapsulation reasons since it was nowhere used.
*/
static void
-sp_canvas_item_construct (SPCanvasItem *item, SPCanvasGroup *parent, const gchar *first_arg_name, va_list args)
+sp_canvas_item_construct (SPCanvasItem *item, SPCanvasGroup *parent, gchar const *first_arg_name, va_list args)
{
g_return_if_fail (SP_IS_CANVAS_GROUP (parent));
g_return_if_fail (SP_IS_CANVAS_ITEM (item));
@@ -192,8 +214,6 @@ sp_canvas_item_construct (SPCanvasItem *item, SPCanvasGroup *parent, const gchar
group_add (SP_CANVAS_GROUP (item->parent), item);
sp_canvas_item_request_update (item);
- sp_canvas_request_redraw (item->canvas, (int)(item->x1), (int)(item->y1), (int)(item->x2 + 1), (int)(item->y2 + 1));
- item->canvas->need_repick = TRUE;
}
/**
redraw_if_visible (SPCanvasItem *item)
{
if (item->flags & SP_CANVAS_ITEM_VISIBLE) {
- sp_canvas_request_redraw (item->canvas, (int)(item->x1), (int)(item->y1), (int)(item->x2 + 1), (int)(item->y2 + 1));
+ int x0 = (int)(item->x1);
+ int x1 = (int)(item->x2);
+ int y0 = (int)(item->y1);
+ int y1 = (int)(item->y2);
+
+ if (x0 !=0 || x1 !=0 || y0 !=0 || y1 !=0) {
+ sp_canvas_request_redraw (item->canvas, (int)(item->x1), (int)(item->y1), (int)(item->x2 + 1), (int)(item->y2 + 1));
+ }
}
}
{
SPCanvasItem *item = SP_CANVAS_ITEM (object);
- redraw_if_visible (item);
+ // Hack: if this is a ctrlrect, move it to 0,0;
+ // this redraws only the stroke of the rect to be deleted,
+ // avoiding redraw of the entire area
+ if (SP_IS_CTRLRECT(item)) {
+ SP_CTRLRECT(object)->setRectangle(NR::Rect(NR::Point(0,0),NR::Point(0,0)));
+ SP_CTRLRECT(object)->update(item->xform, 0);
+ } else {
+ redraw_if_visible (item);
+ }
item->flags &= ~SP_CANVAS_ITEM_VISIBLE;
if (item == item->canvas->current_item) {
@@ -272,11 +307,11 @@ sp_canvas_item_invoke_update (SPCanvasItem *item, NR::Matrix const &affine, unsi
GTK_OBJECT_UNSET_FLAGS (item, SP_CANVAS_ITEM_NEED_AFFINE);
}
-/**
- * Helper function to invoke the point method of the item.
+/**
+ * Helper function to invoke the point method of the item.
*
- * The argument x, y should be in the parent's item-relative coordinate
- * system. This routine applies the inverse of the item's transform,
+ * The argument x, y should be in the parent's item-relative coordinate
+ * system. This routine applies the inverse of the item's transform,
* maintaining the affine invariant.
*/
static double
@@ -291,12 +326,12 @@ sp_canvas_item_invoke_point (SPCanvasItem *item, NR::Point p, SPCanvasItem **act
/**
* Makes the item's affine transformation matrix be equal to the specified
* matrix.
- *
+ *
* @item: A canvas item.
* @affine: An affine transformation matrix.
*/
void
-sp_canvas_item_affine_absolute (SPCanvasItem *item, NR::Matrix const& affine)
+sp_canvas_item_affine_absolute (SPCanvasItem *item, NR::Matrix const &affine)
{
item->xform = affine;
}
/**
- * Convenience function to reorder items in a group's child list.
+ * Convenience function to reorder items in a group's child list.
*
* This puts the specified link after the "before" link.
*/
/**
* Raises the item in its parent's stack by the specified number of positions.
- *
+ *
* \param item A canvas item.
* \param positions Number of steps to raise the item.
*
item->flags |= SP_CANVAS_ITEM_VISIBLE;
- sp_canvas_request_redraw (item->canvas, (int)(item->x1), (int)(item->y1), (int)(item->x2 + 1), (int)(item->y2 + 1));
- item->canvas->need_repick = TRUE;
+ int x0 = (int)(item->x1);
+ int x1 = (int)(item->x2);
+ int y0 = (int)(item->y1);
+ int y1 = (int)(item->y2);
+
+ if (x0 !=0 || x1 !=0 || y0 !=0 || y1 !=0) {
+ sp_canvas_request_redraw (item->canvas, (int)(item->x1), (int)(item->y1), (int)(item->x2 + 1), (int)(item->y2 + 1));
+ item->canvas->need_repick = TRUE;
+ }
}
/**
item->flags &= ~SP_CANVAS_ITEM_VISIBLE;
- sp_canvas_request_redraw (item->canvas, (int)item->x1, (int)item->y1, (int)(item->x2 + 1), (int)(item->y2 + 1));
- item->canvas->need_repick = TRUE;
+ int x0 = (int)(item->x1);
+ int x1 = (int)(item->x2);
+ int y0 = (int)(item->y1);
+ int y1 = (int)(item->y2);
+
+ if (x0 !=0 || x1 !=0 || y0 !=0 || y1 !=0) {
+ sp_canvas_request_redraw (item->canvas, (int)item->x1, (int)item->y1, (int)(item->x2 + 1), (int)(item->y2 + 1));
+ item->canvas->need_repick = TRUE;
+ }
}
/**
* Grab item under cursor.
- *
+ *
* \pre !canvas->grabbed_item && item->flags & SP_CANVAS_ITEM_VISIBLE
*/
int
@@ -494,6 +543,10 @@ sp_canvas_item_grab (SPCanvasItem *item, guint event_mask, GdkCursor *cursor, gu
if (!(item->flags & SP_CANVAS_ITEM_VISIBLE))
return -1;
+ if (HAS_BROKEN_MOTION_HINTS) {
+ event_mask &= ~GDK_POINTER_MOTION_HINT_MASK;
+ }
+
/* fixme: Top hack (Lauris) */
/* fixme: If we add key masks to event mask, Gdk will abort (Lauris) */
/* fixme: But Canvas actualle does get key events, so all we need is routing these here */
@@ -511,7 +564,7 @@ sp_canvas_item_grab (SPCanvasItem *item, guint event_mask, GdkCursor *cursor, gu
/**
* Ungrabs the item, which must have been grabbed in the canvas, and ungrabs the
* mouse.
- *
+ *
* \param item A canvas item that holds a grab.
* \param etime The timestamp for ungrabbing the mouse.
*/
/**
* Requests that the canvas queue an update for the specified item.
- *
+ *
* To be used only by item implementations.
*/
void
/**
* Registers SPCanvasGroup class with Gtk and returns its type number.
*/
-GtkType
-sp_canvas_group_get_type (void)
+GType sp_canvas_group_get_type(void)
{
- static GtkType group_type = 0;
-
- if (!group_type) {
- static const GtkTypeInfo group_info = {
- "SPCanvasGroup",
- sizeof (SPCanvasGroup),
- sizeof (SPCanvasGroupClass),
- (GtkClassInitFunc) sp_canvas_group_class_init,
- (GtkObjectInitFunc) sp_canvas_group_init,
- NULL, NULL, NULL
+ static GType type = 0;
+ if (!type) {
+ GTypeInfo info = {
+ sizeof(SPCanvasGroupClass),
+ 0, // base_init
+ 0, // base_finalize
+ (GClassInitFunc)sp_canvas_group_class_init,
+ 0, // class_finalize
+ 0, // class_data
+ sizeof(SPCanvasGroup),
+ 0, // n_preallocs
+ (GInstanceInitFunc)sp_canvas_group_init,
+ 0 // value_table
};
-
- group_type = gtk_type_unique (sp_canvas_item_get_type (), &group_info);
+ type = g_type_register_static(sp_canvas_item_get_type(), "SPCanvasGroup", &info, static_cast<GTypeFlags>(0));
}
-
- return group_type;
+ return type;
}
/**
}
/**
- * Callback that destroys all items in group and calls group's virtual
+ * Callback that destroys all items in group and calls group's virtual
* destroy() function.
*/
static void
g_return_if_fail (object != NULL);
g_return_if_fail (SP_IS_CANVAS_GROUP (object));
- const SPCanvasGroup *group = SP_CANVAS_GROUP (object);
+ SPCanvasGroup const *group = SP_CANVAS_GROUP (object);
GList *list = group->items;
while (list) {
static void
sp_canvas_group_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned int flags)
{
- const SPCanvasGroup *group = SP_CANVAS_GROUP (item);
+ SPCanvasGroup const *group = SP_CANVAS_GROUP (item);
NR::ConvexHull corners(NR::Point(0, 0));
bool empty=true;
@@ -739,11 +792,16 @@ sp_canvas_group_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned i
}
}
- NR::Rect const &bounds = corners.bounds();
- item->x1 = bounds.min()[NR::X];
- item->y1 = bounds.min()[NR::Y];
- item->x2 = bounds.max()[NR::X];
- item->y2 = bounds.max()[NR::Y];
+ boost::optional<NR::Rect> const bounds = corners.bounds();
+ if (bounds) {
+ item->x1 = bounds->min()[NR::X];
+ item->y1 = bounds->min()[NR::Y];
+ item->x2 = bounds->max()[NR::X];
+ item->y2 = bounds->max()[NR::Y];
+ } else {
+ // FIXME ?
+ item->x1 = item->x2 = item->y1 = item->y2 = 0;
+ }
}
/**
@@ -752,9 +810,9 @@ sp_canvas_group_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned i
static double
sp_canvas_group_point (SPCanvasItem *item, NR::Point p, SPCanvasItem **actual_item)
{
- const SPCanvasGroup *group = SP_CANVAS_GROUP (item);
- const double x = p[NR::X];
- const double y = p[NR::Y];
+ SPCanvasGroup const *group = SP_CANVAS_GROUP (item);
+ double const x = p[NR::X];
+ double const y = p[NR::Y];
int x1 = (int)(x - item->canvas->close_enough);
int y1 = (int)(y - item->canvas->close_enough);
int x2 = (int)(x + item->canvas->close_enough);
@@ -794,7 +852,7 @@ sp_canvas_group_point (SPCanvasItem *item, NR::Point p, SPCanvasItem **actual_it
static void
sp_canvas_group_render (SPCanvasItem *item, SPCanvasBuf *buf)
{
- const SPCanvasGroup *group = SP_CANVAS_GROUP (item);
+ SPCanvasGroup const *group = SP_CANVAS_GROUP (item);
for (GList *list = group->items; list; list = list->next) {
SPCanvasItem *child = (SPCanvasItem *)list->data;
sp_canvas_item_request_update (item);
}
-/**
+/**
* Removes an item from a canvas group
*/
static void
static GtkWidgetClass *canvas_parent_class;
-void sp_canvas_resize_tiles(SPCanvas* canvas,int nl,int nt,int nr,int nb);
-void sp_canvas_dirty_rect(SPCanvas* canvas,int nl,int nt,int nr,int nb);
+static void sp_canvas_resize_tiles(SPCanvas* canvas, int nl, int nt, int nr, int nb);
+static void sp_canvas_dirty_rect(SPCanvas* canvas, int nl, int nt, int nr, int nb);
+static void sp_canvas_mark_rect(SPCanvas* canvas, int nl, int nt, int nr, int nb, uint8_t val);
static int do_update (SPCanvas *canvas);
/**
*
* \return The type ID of the SPCanvas class.
**/
-GtkType
-sp_canvas_get_type (void)
-{
- static GtkType canvas_type = 0;
-
- if (!canvas_type) {
- static const GtkTypeInfo canvas_info = {
- "SPCanvas",
- sizeof (SPCanvas),
- sizeof (SPCanvasClass),
- (GtkClassInitFunc) sp_canvas_class_init,
- (GtkObjectInitFunc) sp_canvas_init,
- NULL, NULL, NULL
+GType sp_canvas_get_type(void)
+{
+ static GType type = 0;
+ if (!type) {
+ GTypeInfo info = {
+ sizeof(SPCanvasClass),
+ 0, // base_init
+ 0, // base_finalize
+ (GClassInitFunc)sp_canvas_class_init,
+ 0, // class_finalize
+ 0, // class_data
+ sizeof(SPCanvas),
+ 0, // n_preallocs
+ (GInstanceInitFunc)sp_canvas_init,
+ 0 // value_table
};
-
- canvas_type = gtk_type_unique (GTK_TYPE_WIDGET, &canvas_info);
+ type = g_type_register_static(GTK_TYPE_WIDGET, "SPCanvas", &info, static_cast<GTypeFlags>(0));
}
-
- return canvas_type;
+ return type;
}
/**
widget_class->focus_out_event = sp_canvas_focus_out;
}
-/**
+/**
* Callback: object initialization for SPCanvas.
*/
static void
canvas->tLeft=canvas->tTop=canvas->tRight=canvas->tBottom=0;
canvas->tileH=canvas->tileV=0;
- canvas->redraw_aborted.x0 = NR_HUGE_L;
- canvas->redraw_aborted.x1 = -NR_HUGE_L;
- canvas->redraw_aborted.y0 = NR_HUGE_L;
- canvas->redraw_aborted.y1 = -NR_HUGE_L;
-
- canvas->redraw_count = 0;
-
canvas->forced_redraw_count = 0;
canvas->forced_redraw_limit = -1;
- canvas->slowest_buffer = 0;
+#if ENABLE_LCMS
+ canvas->enable_cms_display_adj = false;
+ canvas->cms_key = new Glib::ustring("");
+#endif // ENABLE_LCMS
+
+ canvas->is_scrolling = false;
+
}
/**
(* GTK_OBJECT_CLASS (canvas_parent_class)->destroy) (object);
}
+static void track_latency(GdkEvent const *event) {
+ GdkEventLatencyTracker &tracker = GdkEventLatencyTracker::default_tracker();
+ boost::optional<double> latency = tracker.process(event);
+ if (latency && *latency > 2.0) {
+ g_warning("Event latency reached %f sec (%1.4f)", *latency, tracker.getSkew());
+ }
+}
+
/**
* Returns new canvas as widget.
*/
GDK_BUTTON_PRESS_MASK |
GDK_BUTTON_RELEASE_MASK |
GDK_POINTER_MOTION_MASK |
+ ( HAS_BROKEN_MOTION_HINTS ?
+ 0 : GDK_POINTER_MOTION_HINT_MASK ) |
GDK_PROXIMITY_IN_MASK |
GDK_PROXIMITY_OUT_MASK |
GDK_KEY_PRESS_MASK |
{
SPCanvas *canvas = SP_CANVAS (widget);
+ canvas->current_item = NULL;
+ canvas->grabbed_item = NULL;
+ canvas->focused_item = NULL;
+
shutdown_transients (canvas);
gdk_gc_destroy (canvas->pixmap_gc);
}
widget->allocation = *allocation;
-
+
if (GTK_WIDGET_REALIZED (widget)) {
gdk_window_move_resize (widget->window,
widget->allocation.x, widget->allocation.y,
}
/**
- * Helper that emits an event for an item in the canvas, be it the current
+ * Helper that emits an event for an item in the canvas, be it the current
* item, grabbed item, or focused item, as appropriate.
*/
static int
}
/**
- * Helper that re-picks the current item in the canvas, based on the event's
+ * Helper that re-picks the current item in the canvas, based on the event's
* coordinates and emits enter/leave events for items as appropriate.
*/
static int
/* dispatch normally regardless of the event's window if an item has
has a pointer grab in effect */
- if (!canvas->grabbed_item &&
+ if (!canvas->grabbed_item &&
event->window != SP_CANVAS_WINDOW (canvas))
return retval;
return emit_event (SP_CANVAS (widget), (GdkEvent *) event);
}
+static inline void request_motions(GdkWindow *w, GdkEventMotion *event) {
+ gdk_window_get_pointer(w, NULL, NULL, NULL);
+#if HAS_GDK_EVENT_REQUEST_MOTIONS
+ gdk_event_request_motions(event);
+#endif
+}
+
/**
* Motion event handler for the canvas.
*/
static int
sp_canvas_motion (GtkWidget *widget, GdkEventMotion *event)
{
+ int status;
SPCanvas *canvas = SP_CANVAS (widget);
+ track_latency((GdkEvent *)event);
+
if (event->window != SP_CANVAS_WINDOW (canvas))
return FALSE;
- if (canvas->grabbed_event_mask & GDK_POINTER_MOTION_HINT_MASK) {
- gint x, y;
- gdk_window_get_pointer (widget->window, &x, &y, NULL);
- event->x = x;
- event->y = y;
- }
+ if (canvas->pixmap_gc == NULL) // canvas being deleted
+ return FALSE;
canvas->state = event->state;
pick_current_item (canvas, (GdkEvent *) event);
- return emit_event (canvas, (GdkEvent *) event);
+ status = emit_event (canvas, (GdkEvent *) event);
+
+ if (event->is_hint) {
+ request_motions(widget->window, event);
+ }
+
+ return status;
}
static void
@@ -1518,13 +1602,16 @@ sp_canvas_paint_single_buffer (SPCanvas *canvas, int x0, int y0, int x1, int y1,
GtkWidget *widget = GTK_WIDGET (canvas);
SPCanvasBuf buf;
- if (canvas->rendermode != RENDERMODE_OUTLINE) {
+ if (canvas->rendermode != Inkscape::RENDERMODE_OUTLINE) {
buf.buf = nr_pixelstore_256K_new (FALSE, 0);
} else {
buf.buf = nr_pixelstore_1M_new (FALSE, 0);
}
- buf.buf_rowstride = sw * 3;
+ // Mark the region clean
+ sp_canvas_mark_rect(canvas, x0, y0, x1, y1, 0);
+
+ buf.buf_rowstride = sw * 4;
buf.rect.x0 = x0;
buf.rect.y0 = y0;
buf.rect.x1 = x1;
@@ -1538,12 +1625,29 @@ sp_canvas_paint_single_buffer (SPCanvas *canvas, int x0, int y0, int x1, int y1,
| (color->green & 0xff00)
| (color->blue >> 8));
buf.is_empty = true;
-
+
+ buf.ct = nr_create_cairo_context_canvasbuf (&(buf.visible_rect), &buf);
+
if (canvas->root->flags & SP_CANVAS_ITEM_VISIBLE) {
SP_CANVAS_ITEM_GET_CLASS (canvas->root)->render (canvas->root, &buf);
}
-
+
+#if ENABLE_LCMS
+ cmsHTRANSFORM transf = 0;
+ long long int fromDisplay = prefs_get_int_attribute_limited( "options.displayprofile", "from_display", 0, 0, 1 );
+ if ( fromDisplay ) {
+ transf = Inkscape::colorprofile_get_display_per( canvas->cms_key ? *(canvas->cms_key) : "" );
+ } else {
+ transf = Inkscape::colorprofile_get_display_transform();
+ }
+#endif // ENABLE_LCMS
+
if (buf.is_empty) {
+#if ENABLE_LCMS
+ if ( transf && canvas->enable_cms_display_adj ) {
+ cmsDoTransform( transf, &buf.bg_color, &buf.bg_color, 1 );
+ }
+#endif // ENABLE_LCMS
gdk_rgb_gc_set_foreground (canvas->pixmap_gc, buf.bg_color);
gdk_draw_rectangle (SP_CANVAS_WINDOW (canvas),
canvas->pixmap_gc,
@@ -1551,218 +1655,210 @@ sp_canvas_paint_single_buffer (SPCanvas *canvas, int x0, int y0, int x1, int y1,
x0 - canvas->x0, y0 - canvas->y0,
x1 - x0, y1 - y0);
} else {
+
+#if ENABLE_LCMS
+ if ( transf && canvas->enable_cms_display_adj ) {
+ for ( gint yy = 0; yy < (y1 - y0); yy++ ) {
+ guchar* p = buf.buf + (sw * 3) * yy;
+ cmsDoTransform( transf, p, p, (x1 - x0) );
+ }
+ }
+#endif // ENABLE_LCMS
+
+// Now we only need to output the prepared pixmap to the actual screen, and this define chooses one
+// of the two ways to do it. The cairo way is direct and straightforward, but unfortunately
+// noticeably slower. I asked Carl Worth but he was unable so far to suggest any specific reason
+// for this slowness. So, for now we use the oldish method: squeeze out 32bpp buffer to 24bpp and
+// use gdk_draw_rgb_image_dithalign, for unfortunately gdk can only handle 24 bpp, which cairo
+// cannot handle at all. Still, this way is currently faster even despite the blit with squeeze.
+
+///#define CANVAS_OUTPUT_VIA_CAIRO
+
+#ifdef CANVAS_OUTPUT_VIA_CAIRO
+
+ buf.cst = cairo_image_surface_create_for_data (
+ buf.buf,
+ CAIRO_FORMAT_ARGB32, // unpacked, i.e. 32 bits! one byte is unused
+ x1 - x0, y1 - y0,
+ buf.buf_rowstride
+ );
+ cairo_t *window_ct = gdk_cairo_create(SP_CANVAS_WINDOW (canvas));
+ cairo_set_source_surface (window_ct, buf.cst, x0 - canvas->x0, y0 - canvas->y0);
+ cairo_paint (window_ct);
+ cairo_destroy (window_ct);
+ cairo_surface_finish (buf.cst);
+ cairo_surface_destroy (buf.cst);
+
+#else
+
+ NRPixBlock b3;
+ nr_pixblock_setup_fast (&b3, NR_PIXBLOCK_MODE_R8G8B8, x0, y0, x1, y1, TRUE);
+
+ NRPixBlock b4;
+ nr_pixblock_setup_extern (&b4, NR_PIXBLOCK_MODE_R8G8B8A8P, x0, y0, x1, y1,
+ buf.buf,
+ buf.buf_rowstride,
+ FALSE, FALSE);
+
+ // this does the 32->24 squishing, using an assembler routine:
+ nr_blit_pixblock_pixblock (&b3, &b4);
+
gdk_draw_rgb_image_dithalign (SP_CANVAS_WINDOW (canvas),
canvas->pixmap_gc,
x0 - canvas->x0, y0 - canvas->y0,
x1 - x0, y1 - y0,
GDK_RGB_DITHER_MAX,
- buf.buf,
+ NR_PIXBLOCK_PX(&b3),
sw * 3,
x0 - canvas->x0, y0 - canvas->y0);
+
+ nr_pixblock_release (&b3);
+ nr_pixblock_release (&b4);
+#endif
}
- if (canvas->rendermode != RENDERMODE_OUTLINE) {
+ cairo_surface_t *cst = cairo_get_target(buf.ct);
+ cairo_destroy (buf.ct);
+ cairo_surface_finish (cst);
+ cairo_surface_destroy (cst);
+
+ if (canvas->rendermode != Inkscape::RENDERMODE_OUTLINE) {
nr_pixelstore_256K_free (buf.buf);
} else {
nr_pixelstore_1M_free (buf.buf);
}
}
-/* Paint the given rect, while updating canvas->redraw_aborted and running iterations after each
- * buffer; make sure canvas->redraw_aborted never goes past aborted_limit (used for 2-rect
- * optimized repaint)
+struct PaintRectSetup {
+ SPCanvas* canvas;
+ NRRectL big_rect;
+ GTimeVal start_time;
+ int max_pixels;
+ NR::Point mouse_loc;
+};
+
+/**
+ * Paint the given rect, recursively subdividing the region until it is the size of a single
+ * buffer.
+ *
+ * @return true if the drawing completes
*/
static int
-sp_canvas_paint_rect_internal (SPCanvas *canvas, NRRectL *rect, NR::ICoord *x_aborted_limit, NR::ICoord *y_aborted_limit)
-{
- int draw_x1 = rect->x0;
- int draw_x2 = rect->x1;
- int draw_y1 = rect->y0;
- int draw_y2 = rect->y1;
+sp_canvas_paint_rect_internal (PaintRectSetup const *setup, NRRectL this_rect)
+{
+ GTimeVal now;
+ g_get_current_time (&now);
+
+ glong elapsed = (now.tv_sec - setup->start_time.tv_sec) * 1000000
+ + (now.tv_usec - setup->start_time.tv_usec);
+
+ // Allow only very fast buffers to be run together;
+ // as soon as the total redraw time exceeds 1ms, cancel;
+ // this returns control to the idle loop and allows Inkscape to process user input
+ // (potentially interrupting the redraw); as soon as Inkscape has some more idle time,
+ // it will get back and finish painting what remains to paint.
+ if (elapsed > 1000) {
+
+ // Interrupting redraw isn't always good.
+ // For example, when you drag one node of a big path, only the buffer containing
+ // the mouse cursor will be redrawn again and again, and the rest of the path
+ // will remain stale because Inkscape never has enough idle time to redraw all
+ // of the screen. To work around this, such operations set a forced_redraw_limit > 0.
+ // If this limit is set, and if we have aborted redraw more times than is allowed,
+ // interrupting is blocked and we're forced to redraw full screen once
+ // (after which we can again interrupt forced_redraw_limit times).
+ if (setup->canvas->forced_redraw_limit < 0 ||
+ setup->canvas->forced_redraw_count < setup->canvas->forced_redraw_limit) {
+
+ if (setup->canvas->forced_redraw_limit != -1) {
+ setup->canvas->forced_redraw_count++;
+ }
- // Here we'll store the time it took to draw the slowest buffer of this paint.
- glong slowest_buffer = 0;
+ return false;
+ }
+ }
// Find the optimal buffer dimensions
- int bw = draw_x2 - draw_x1;
- int bh = draw_y2 - draw_y1;
+ int bw = this_rect.x1 - this_rect.x0;
+ int bh = this_rect.y1 - this_rect.y0;
if ((bw < 1) || (bh < 1))
return 0;
- int sw, sh;
- if (canvas->rendermode != RENDERMODE_OUTLINE) { // use 256K as a compromise to not slow down gradients
- /* 256K is the cached buffer and we need 3 channels */
- if (bw * bh < 87381) { // 256K/3
- // We can go with single buffer
- sw = bw;
- sh = bh;
- } else if (bw <= (16 * 341)) {
- // Go with row buffer
- sw = bw;
- sh = 87381 / bw;
- } else if (bh <= (16 * 256)) {
- // Go with column buffer
- sw = 87381 / bh;
- sh = bh;
- } else {
- sw = 341;
- sh = 256;
- }
- } else { // paths only, so 1M works faster
- /* 1M is the cached buffer and we need 3 channels */
- if (bw * bh < 349525) { // 1M/3
- // We can go with single buffer
- sw = bw;
- sh = bh;
- } else if (bw <= (16 * 682)) {
- // Go with row buffer
- sw = bw;
- sh = 349525 / bw;
- } else if (bh <= (16 * 512)) {
- // Go with column buffer
- sw = 349525 / bh;
- sh = bh;
- } else {
- sw = 682;
- sh = 512;
- }
- }
-
- // Will this paint require more than one buffer?
- bool multiple_buffers = (((draw_y2 - draw_y1) > sh) || ((draw_x2 - draw_x1) > sw)); // or two_rects
-
- // remember the counter during this paint
- long this_count = canvas->redraw_count;
-
- // Time values to measure each buffer's paint time
- GTimeVal tstart, tfinish;
-
- // paint from the corner nearest the mouse pointer
- gint x, y;
- gdk_window_get_pointer (GTK_WIDGET(canvas)->window, &x, &y, NULL);
- NR::Point pw = sp_canvas_window_to_world (canvas, NR::Point(x,y));
-
- bool reverse_x = (pw[NR::X] > ((draw_x2 + draw_x1) / 2));
- bool reverse_y = (pw[NR::Y] > ((draw_y2 + draw_y1) / 2));
-
- if ((bw > bh) && (sh > sw)) {
- int t = sw; sw = sh; sh = t;
+ if (bw * bh < setup->max_pixels) {
+ // We are small enough
+ sp_canvas_paint_single_buffer (setup->canvas,
+ this_rect.x0, this_rect.y0,
+ this_rect.x1, this_rect.y1,
+ setup->big_rect.x0, setup->big_rect.y0,
+ setup->big_rect.x1, setup->big_rect.y1, bw);
+ return 1;
}
- // This is the main loop which corresponds to the visible left-to-right, top-to-bottom drawing
- // of screen blocks (buffers).
- for (int y0 = draw_y1; y0 < draw_y2; y0 += sh) {
- int y1 = MIN (y0 + sh, draw_y2);
- for (int x0 = draw_x1; x0 < draw_x2; x0 += sw) {
- int x1 = MIN (x0 + sw, draw_x2);
-
- int dx0 = x0;
- int dx1 = x1;
- int dy0 = y0;
- int dy1 = y1;
+ NRRectL lo = this_rect;
+ NRRectL hi = this_rect;
- if (reverse_x) {
- dx0 = (draw_x2 - (x0 + sw)) + draw_x1;
- dx0 = MAX (dx0, draw_x1);
- dx1 = (draw_x2 - x0) + draw_x1;
- dx1 = MIN (dx1, draw_x2);
- }
- if (reverse_y) {
- dy0 = (draw_y2 - (y0 + sh)) + draw_y1;
- dy0 = MAX (dy0, draw_y1);
- dy1 = (draw_y2 - y0) + draw_y1;
- dy1 = MIN (dy1, draw_y2);
- }
+/*
+This test determines the redraw strategy:
- // OPTIMIZATION IDEA: if drawing is really slow (as measured by canvas->slowest
- // buffer), process some events even BEFORE we do any buffers?
-
- // Paint one buffer; measure how long it takes.
- g_get_current_time (&tstart);
- sp_canvas_paint_single_buffer (canvas, dx0, dy0, dx1, dy1, draw_x1, draw_y1, draw_x2, draw_y2, sw);
- g_get_current_time (&tfinish);
-
- // Remember the slowest_buffer of this paint.
- glong this_buffer = (tfinish.tv_sec - tstart.tv_sec) * 1000000 + (tfinish.tv_usec - tstart.tv_usec);
- if (this_buffer > slowest_buffer)
- slowest_buffer = this_buffer;
-
- // After each successful buffer, reduce the rect remaining to redraw by what is already redrawn
- if (x1 >= draw_x2) {
- if (reverse_y) {
- if (canvas->redraw_aborted.y1 > dy0) { canvas->redraw_aborted.y1 = dy0; }
- } else {
- if (canvas->redraw_aborted.y0 < y1) { canvas->redraw_aborted.y0 = y1; }
- }
- }
+bw < bh (strips mode) splits across the smaller dimension of the rect and therefore (on
+horizontally-stretched windows) results in redrawing in horizontal strips (from cursor point, in
+both directions if the cursor is in the middle). This is traditional for Inkscape since old days,
+and seems to be faster for drawings with many smaller objects at zoom-out.
- if (y1 >= draw_y2) {
- if (reverse_x) {
- if (canvas->redraw_aborted.x1 > dx0) { canvas->redraw_aborted.x1 = dx0; }
- } else {
- if (canvas->redraw_aborted.x0 < x1) { canvas->redraw_aborted.x0 = x1; }
- }
- }
+bw > bh (chunks mode) splits across the larger dimension of the rect and therefore paints in
+almost-square chunks, again from the cursor point. It's sometimes faster for drawings with few slow
+(e.g. blurred) objects crossing the entire screen. It also appears to be somewhat psychologically
+faster.
- // INTERRUPTIBLE DISPLAY:
- // Process events that may have arrived while we were busy drawing;
- // only if we're drawing multiple buffers, and only if this one was not very fast,
- // and only if we're allowed to interrupt this redraw
- bool ok_to_interrupt = (multiple_buffers && this_buffer > 25000);
- if (ok_to_interrupt && (canvas->forced_redraw_limit != -1)) {
- ok_to_interrupt = (canvas->forced_redraw_count < canvas->forced_redraw_limit);
- }
-
- if (ok_to_interrupt) {
- // Run at most max_iterations of the main loop; we cannot process ALL events
- // here because some things (e.g. rubberband) flood with dirtying events but will
- // not redraw themselves
- int max_iterations = 10;
- int iterations = 0;
- while (Gtk::Main::events_pending() && iterations++ < max_iterations) {
- Gtk::Main::iteration(false);
- // If one of the iterations has redrawn by itself, abort
- if (this_count != canvas->redraw_count) {
- canvas->slowest_buffer = slowest_buffer;
- if (canvas->forced_redraw_limit != -1) {
- canvas->forced_redraw_count++;
- }
- return 1; // interrupted
- }
- }
-
- // If not aborted so far, check if the events set redraw or update flags;
- // if so, force update and abort
- if (canvas->need_redraw || canvas->need_update) {
- canvas->slowest_buffer = slowest_buffer;
- if (canvas->forced_redraw_limit != -1) {
- canvas->forced_redraw_count++;
- }
- do_update (canvas);
- return 1; // interrupted
- }
- }
+The default for now is the strips mode.
+*/
+ if (bw < bh || bh < 2 * TILE_SIZE) {
+ // to correctly calculate the mean of two ints, we need to sum them into a larger int type
+ int mid = ((long long) this_rect.x0 + (long long) this_rect.x1) / 2;
+ // Make sure that mid lies on a tile boundary
+ mid = (mid / TILE_SIZE) * TILE_SIZE;
+
+ lo.x1 = mid;
+ hi.x0 = mid;
+
+ if (setup->mouse_loc[NR::X] < mid) {
+ // Always paint towards the mouse first
+ return sp_canvas_paint_rect_internal(setup, lo)
+ && sp_canvas_paint_rect_internal(setup, hi);
+ } else {
+ return sp_canvas_paint_rect_internal(setup, hi)
+ && sp_canvas_paint_rect_internal(setup, lo);
+ }
+ } else {
+ // to correctly calculate the mean of two ints, we need to sum them into a larger int type
+ int mid = ((long long) this_rect.y0 + (long long) this_rect.y1) / 2;
+ // Make sure that mid lies on a tile boundary
+ mid = (mid / TILE_SIZE) * TILE_SIZE;
+
+ lo.y1 = mid;
+ hi.y0 = mid;
+
+ if (setup->mouse_loc[NR::Y] < mid) {
+ // Always paint towards the mouse first
+ return sp_canvas_paint_rect_internal(setup, lo)
+ && sp_canvas_paint_rect_internal(setup, hi);
+ } else {
+ return sp_canvas_paint_rect_internal(setup, hi)
+ && sp_canvas_paint_rect_internal(setup, lo);
}
}
-
- // Remember the slowest buffer of this paint in canvas
- canvas->slowest_buffer = slowest_buffer;
-
- return 0; // finished
}
/**
* Helper that draws a specific rectangular part of the canvas.
+ *
+ * @return true if the rectangle painting succeeds.
*/
-static void
+static bool
sp_canvas_paint_rect (SPCanvas *canvas, int xx0, int yy0, int xx1, int yy1)
{
- g_return_if_fail (!canvas->need_update);
-
- // Monotonously increment the canvas-global counter on each paint. This will let us find out
- // when a new paint happened in event processing during this paint, so we can abort it.
- canvas->redraw_count++;
+ g_return_val_if_fail (!canvas->need_update, false);
NRRectL rect;
rect.x0 = xx0;
rect.x1 = MIN (rect.x1, canvas->x0/*draw_x1*/ + GTK_WIDGET (canvas)->allocation.width);
rect.y1 = MIN (rect.y1, canvas->y0/*draw_y1*/ + GTK_WIDGET (canvas)->allocation.height);
- // Clip rect-aborted-last-time by the current visible area
- canvas->redraw_aborted.x0 = MAX (canvas->redraw_aborted.x0, canvas->x0);
- canvas->redraw_aborted.y0 = MAX (canvas->redraw_aborted.y0, canvas->y0);
- canvas->redraw_aborted.x1 = MIN (canvas->redraw_aborted.x1, canvas->x0/*draw_x1*/ + GTK_WIDGET (canvas)->allocation.width);
- canvas->redraw_aborted.y1 = MIN (canvas->redraw_aborted.y1, canvas->y0/*draw_y1*/ + GTK_WIDGET (canvas)->allocation.height);
-
- if (canvas->redraw_aborted.x0 < canvas->redraw_aborted.x1 && canvas->redraw_aborted.y0 < canvas->redraw_aborted.y1) {
- // There was an aborted redraw last time, now we need to redraw BOTH it and the new rect.
-
- // save the old aborted rect in case we decide to paint it separately (see below)
- NRRectL aborted = canvas->redraw_aborted;
-
- // calculate the rectangle union of the both rects (the smallest rectangle which covers both)
- NRRectL nion;
- nr_rect_l_union (&nion, &rect, &aborted);
-
- // subtract one of the rects-to-draw from the other (the smallest rectangle which covers
- // all of the first not covered by the second)
- NRRectL rect_minus_aborted;
- nr_rect_l_subtract (&rect_minus_aborted, &rect, &aborted);
-
- // Initially, the rect to redraw later (in case we're aborted) is the same as the union of both rects
- canvas->redraw_aborted = nion;
-
- // calculate areas of the three rects
- if ((nr_rect_l_area(&rect_minus_aborted) + nr_rect_l_area(&aborted)) * 1.2 < nr_rect_l_area(&nion)) {
- // If the summary area of the two rects is significantly (at least by 20%) less than
- // the area of their rectangular union, it makes sense to paint the two rects
- // separately instead of painting their union. This gives a significant speedup when,
- // for example, your current canvas is almost painted, with only a strip at bottom
- // left, and at that moment you abort it by scrolling down which reveals a new strip at
- // the top. Straightforward painting of the union of the aborted rect and the new rect
- // will have to repaint the entire canvas! By contrast, the optimized approach below
- // paints the two narrow strips in order which is much faster.
-
- // find out which rect to draw first - compare them first by y then by x of the top left corners
- NRRectL *first;
- NRRectL *second;
- if (rect.y0 == aborted.y0) {
- if (rect.x0 < aborted.x0) {
- first = ▭
- second = &aborted;
- } else {
- second = ▭
- first = &aborted;
- }
- } else if (rect.y0 < aborted.y0) {
- first = ▭
- second = &aborted;
- } else {
- second = ▭
- first = &aborted;
- }
+#ifdef DEBUG_REDRAW
+ // paint the area to redraw yellow
+ gdk_rgb_gc_set_foreground (canvas->pixmap_gc, 0xFFFF00);
+ gdk_draw_rectangle (SP_CANVAS_WINDOW (canvas),
+ canvas->pixmap_gc,
+ TRUE,
+ rect.x0 - canvas->x0, rect.y0 - canvas->y0,
+ rect.x1 - rect.x0, rect.y1 - rect.y0);
+#endif
- NRRectL second_minus_first;
- nr_rect_l_subtract (&second_minus_first, second, first);
+ PaintRectSetup setup;
- // paint the first rect;
- if (sp_canvas_paint_rect_internal (canvas, first, &(second_minus_first.x0), &(second_minus_first.y0))) {
- // aborted!
- return;
- }
+ setup.canvas = canvas;
+ setup.big_rect = rect;
- // if not aborted, assign (second rect minus first) as the new redraw_aborted and paint the same
- canvas->redraw_aborted = second_minus_first;
- if (sp_canvas_paint_rect_internal (canvas, &second_minus_first, NULL, NULL)) {
- return; // aborted
- }
+ // Save the mouse location
+ gint x, y;
+ gdk_window_get_pointer (GTK_WIDGET(canvas)->window, &x, &y, NULL);
+ setup.mouse_loc = sp_canvas_window_to_world (canvas, NR::Point(x,y));
- } else {
- // no need for separate drawing, just draw the union as one rect
- if (sp_canvas_paint_rect_internal (canvas, &nion, NULL, NULL)) {
- return; // aborted
- }
- }
+ if (canvas->rendermode != Inkscape::RENDERMODE_OUTLINE) {
+ // use 256K as a compromise to not slow down gradients
+ // 256K is the cached buffer and we need 4 channels
+ setup.max_pixels = 65536; // 256K/4
} else {
- // Nothing was aborted last time, just draw the rect we're given
-
- // Initially, the rect to redraw later (in case we're aborted) is the same as the one we're going to draw now.
- canvas->redraw_aborted = rect;
-
- if (sp_canvas_paint_rect_internal (canvas, &rect, NULL, NULL)) {
- return; // aborted
- }
+ // paths only, so 1M works faster
+ // 1M is the cached buffer and we need 4 channels
+ setup.max_pixels = 262144;
}
- // we've had a full unaborted redraw, reset the full redraw counter
- if (canvas->forced_redraw_limit != -1) {
- canvas->forced_redraw_count = 0;
- }
+ // Start the clock
+ g_get_current_time(&(setup.start_time));
+
+ // Go
+ return sp_canvas_paint_rect_internal(&setup, rect);
}
/**
void
sp_canvas_force_full_redraw_after_interruptions(SPCanvas *canvas, unsigned int count) {
g_return_if_fail(canvas != NULL);
-
+
canvas->forced_redraw_limit = count;
canvas->forced_redraw_count = 0;
}
{
SPCanvas *canvas = SP_CANVAS (widget);
- if (!GTK_WIDGET_DRAWABLE (widget) ||
+ if (!GTK_WIDGET_DRAWABLE (widget) ||
(event->window != SP_CANVAS_WINDOW (canvas)))
return FALSE;
for (int i = 0; i < n_rects; i++) {
NRRectL rect;
-
+
rect.x0 = rects[i].x + canvas->x0;
rect.y0 = rects[i].y + canvas->y0;
rect.x1 = rect.x0 + rects[i].width;
/**
* Helper that repaints the areas in the canvas that need it.
+ *
+ * @return true if all the dirty parts have been redrawn
*/
static int
paint (SPCanvas *canvas)
if (!canvas->need_redraw)
return TRUE;
- GtkWidget const *widget = GTK_WIDGET(canvas);
- int const canvas_x1 = canvas->x0 + widget->allocation.width;
- int const canvas_y1 = canvas->y0 + widget->allocation.height;
-
- NRRectL topaint;
- topaint.x0 = topaint.y0 = topaint.x1 = topaint.y1 = 0;
-
- for (int j=canvas->tTop&(~3);j<canvas->tBottom;j+=4) {
- for (int i=canvas->tLeft&(~3);i<canvas->tRight;i+=4) {
- int mode=0;
-
- int pl=i+1,pr=i,pt=j+4,pb=j;
- for (int l=MAX(j,canvas->tTop);l<MIN(j+4,canvas->tBottom);l++) {
- for (int k=MAX(i,canvas->tLeft);k<MIN(i+4,canvas->tRight);k++) {
- if ( canvas->tiles[(k-canvas->tLeft)+(l-canvas->tTop)*canvas->tileH] ) {
- mode|=1<<((k-i)+(l-j)*4);
- if ( k < pl ) pl=k;
- if ( k+1 > pr ) pr=k+1;
- if ( l < pt ) pt=l;
- if ( l+1 > pb ) pb=l+1;
- }
- canvas->tiles[(k-canvas->tLeft)+(l-canvas->tTop)*canvas->tileH]=0;
- }
- }
-
- if ( mode ) {
- NRRectL tile;
- tile.x0 = MAX (pl*32, canvas->x0);
- tile.y0 = MAX (pt*32, canvas->y0);
- tile.x1 = MIN (pr*32, canvas_x1);
- tile.y1 = MIN (pb*32, canvas_y1);
- if ((tile.x0 < tile.x1) && (tile.y0 < tile.y1)) {
- nr_rect_l_union (&topaint, &topaint, &tile);
- }
+ Gdk::Region to_paint;
+
+ for (int j=canvas->tTop; j<canvas->tBottom; j++) {
+ for (int i=canvas->tLeft; i<canvas->tRight; i++) {
+ int tile_index = (i - canvas->tLeft) + (j - canvas->tTop)*canvas->tileH;
+ if ( canvas->tiles[tile_index] ) { // if this tile is dirtied (nonzero)
+ to_paint.union_with_rect(Gdk::Rectangle(i*TILE_SIZE, j*TILE_SIZE,
+ TILE_SIZE, TILE_SIZE));
}
+
+ }
+ }
+
+ if (!to_paint.empty()) {
+ Glib::ArrayHandle<Gdk::Rectangle> rect = to_paint.get_rectangles();
+ typedef Glib::ArrayHandle<Gdk::Rectangle>::const_iterator Iter;
+ for (Iter i=rect.begin(); i != rect.end(); ++i) {
+ int x0 = (*i).get_x();
+ int y0 = (*i).get_y();
+ int x1 = x0 + (*i).get_width();
+ int y1 = y0 + (*i).get_height();
+ if (!sp_canvas_paint_rect(canvas, x0, y0, x1, y1)) {
+ // Aborted
+ return FALSE;
+ };
}
}
canvas->need_redraw = FALSE;
- sp_canvas_paint_rect (canvas, topaint.x0, topaint.y0, topaint.x1, topaint.y1);
+
+ // we've had a full unaborted redraw, reset the full redraw counter
+ if (canvas->forced_redraw_limit != -1) {
+ canvas->forced_redraw_count = 0;
+ }
return TRUE;
}
static int
do_update (SPCanvas *canvas)
{
- if (!canvas->root) // canvas may have already be destroyed by closing desktop durring interrupted display!
+ if (!canvas->root || !canvas->pixmap_gc) // canvas may have already be destroyed by closing desktop durring interrupted display!
return TRUE;
/* Cause the update if necessary */
SPCanvas *canvas = SP_CANVAS (data);
- const int ret = do_update (canvas);
+ int const ret = do_update (canvas);
if (ret) {
/* Reset idle id */
}
/**
- * Scrolls canvas to specific position.
+ * Scrolls canvas to specific position (cx and cy are measured in screen pixels)
*/
void
-sp_canvas_scroll_to (SPCanvas *canvas, double cx, double cy, unsigned int clear)
+sp_canvas_scroll_to (SPCanvas *canvas, double cx, double cy, unsigned int clear, bool is_scrolling)
{
g_return_if_fail (canvas != NULL);
g_return_if_fail (SP_IS_CANVAS (canvas));
- int ix = (int) (cx + 0.5);
- int iy = (int) (cy + 0.5);
- int dx = ix - canvas->x0;
- int dy = iy - canvas->y0;
+ int ix = (int) round(cx); // ix and iy are the new canvas coordinates (integer screen pixels)
+ int iy = (int) round(cy); // cx might be negative, so (int)(cx + 0.5) will not do!
+ int dx = ix - canvas->x0; // dx and dy specify the displacement (scroll) of the
+ int dy = iy - canvas->y0; // canvas w.r.t its previous position
- canvas->dx0 = cx;
+ canvas->dx0 = cx; // here the 'd' stands for double, not delta!
canvas->dy0 = cy;
canvas->x0 = ix;
canvas->y0 = iy;
- sp_canvas_resize_tiles(canvas,canvas->x0,canvas->y0,canvas->x0+canvas->widget.allocation.width,canvas->y0+canvas->widget.allocation.height);
+ sp_canvas_resize_tiles (canvas, canvas->x0, canvas->y0, canvas->x0+canvas->widget.allocation.width, canvas->y0+canvas->widget.allocation.height);
if (!clear) {
// scrolling without zoom; redraw only the newly exposed areas
if ((dx != 0) || (dy != 0)) {
- int width, height;
- width = canvas->widget.allocation.width;
- height = canvas->widget.allocation.height;
+ canvas->is_scrolling = is_scrolling;
if (GTK_WIDGET_REALIZED (canvas)) {
gdk_window_scroll (SP_CANVAS_WINDOW (canvas), -dx, -dy);
- gdk_window_process_updates (SP_CANVAS_WINDOW (canvas), TRUE);
- }
- if (dx < 0) {
- sp_canvas_request_redraw (canvas, ix + 0, iy + 0, ix - dx, iy + height);
- } else if (dx > 0) {
- sp_canvas_request_redraw (canvas, ix + width - dx, iy + 0, ix + width, iy + height);
- }
- if (dy < 0) {
- sp_canvas_request_redraw (canvas, ix + 0, iy + 0, ix + width, iy - dy);
- } else if (dy > 0) {
- sp_canvas_request_redraw (canvas, ix + 0, iy + height - dy, ix + width, iy + height);
}
}
} else {
@@ -2160,7 +2184,7 @@ sp_canvas_scroll_to (SPCanvas *canvas, double cx, double cy, unsigned int clear)
}
}
-/**
+/**
* Updates canvas if necessary.
*/
void
canvas->need_redraw))
return;
- remove_idle (canvas);
do_update (canvas);
}
@@ -2283,30 +2306,39 @@ bool sp_canvas_world_pt_inside_window(SPCanvas const *canvas, NR::Point const &w
}
/**
- * Return canvas window coordinates as NRRect.
+ * Return canvas window coordinates as NR::Rect.
*/
NR::Rect SPCanvas::getViewbox() const
{
GtkWidget const *w = GTK_WIDGET(this);
-
return NR::Rect(NR::Point(dx0, dy0),
NR::Point(dx0 + w->allocation.width, dy0 + w->allocation.height));
}
+/**
+ * Return canvas window coordinates as IRect (a rectangle defined by integers).
+ */
+NR::IRect SPCanvas::getViewboxIntegers() const
+{
+ GtkWidget const *w = GTK_WIDGET(this);
+ return NR::IRect(NR::IPoint(x0, y0),
+ NR::IPoint(x0 + w->allocation.width, y0 + w->allocation.height));
+}
+
inline int sp_canvas_tile_floor(int x)
{
- return (x&(~31))/32;
+ return (x & (~(TILE_SIZE - 1))) / TILE_SIZE;
}
inline int sp_canvas_tile_ceil(int x)
{
- return ((x+31)&(~31))/32;
+ return ((x + (TILE_SIZE - 1)) & (~(TILE_SIZE - 1))) / TILE_SIZE;
}
/**
- * Helper that changes tile size for canvas redraw.
+ * Helper that allocates a new tile array for the canvas, copying overlapping tiles from the old array
*/
-void sp_canvas_resize_tiles(SPCanvas* canvas,int nl,int nt,int nr,int nb)
+static void sp_canvas_resize_tiles(SPCanvas* canvas, int nl, int nt, int nr, int nb)
{
if ( nl >= nr || nt >= nb ) {
if ( canvas->tiles ) g_free(canvas->tiles);
int tr=sp_canvas_tile_ceil(nr);
int tb=sp_canvas_tile_ceil(nb);
- int nh=tr-tl,nv=tb-tt;
- uint8_t* ntiles=(uint8_t*)g_malloc(nh*nv*sizeof(uint8_t));
- for (int i=tl;i<tr;i++) {
- for (int j=tt;j<tb;j++) {
- int ind=(i-tl)+(j-tt)*nh;
+ int nh = tr-tl, nv = tb-tt;
+ uint8_t* ntiles = (uint8_t*)g_malloc(nh*nv*sizeof(uint8_t));
+ for (int i=tl; i<tr; i++) {
+ for (int j=tt; j<tb; j++) {
+ int ind = (i-tl) + (j-tt)*nh;
if ( i >= canvas->tLeft && i < canvas->tRight && j >= canvas->tTop && j < canvas->tBottom ) {
- ntiles[ind]=canvas->tiles[(i-canvas->tLeft)+(j-canvas->tTop)*canvas->tileH];
+ ntiles[ind]=canvas->tiles[(i-canvas->tLeft)+(j-canvas->tTop)*canvas->tileH]; // copy from the old tile
} else {
- ntiles[ind]=0;
+ ntiles[ind]=0; // newly exposed areas get 0
}
}
}
canvas->tileV=nv;
}
+/*
+ * Helper that queues a canvas rectangle for redraw
+ */
+static void sp_canvas_dirty_rect(SPCanvas* canvas, int nl, int nt, int nr, int nb) {
+ canvas->need_redraw = TRUE;
+
+ sp_canvas_mark_rect(canvas, nl, nt, nr, nb, 1);
+}
+
/**
- * Helper that marks specific canvas rectangle for redraw.
+ * Helper that marks specific canvas rectangle as clean (val == 0) or dirty (otherwise)
*/
-void sp_canvas_dirty_rect(SPCanvas* canvas,int nl,int nt,int nr,int nb)
+void sp_canvas_mark_rect(SPCanvas* canvas, int nl, int nt, int nr, int nb, uint8_t val)
{
if ( nl >= nr || nt >= nb ) {
return;
if ( tt < canvas->tTop ) tt=canvas->tTop;
if ( tb > canvas->tBottom ) tb=canvas->tBottom;
- canvas->need_redraw = TRUE;
-
- for (int i=tl;i<tr;i++) {
- for (int j=tt;j<tb;j++) {
- canvas->tiles[(i-canvas->tLeft)+(j-canvas->tTop)*canvas->tileH]=1;
+ for (int i=tl; i<tr; i++) {
+ for (int j=tt; j<tb; j++) {
+ canvas->tiles[(i-canvas->tLeft)+(j-canvas->tTop)*canvas->tileH] = val;
}
}
}
fill-column:99
End:
*/
-// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4 :
+// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:encoding=utf-8:textwidth=99 :