index 2af12b6c373525cc91c233c742630b613b8b269a..fc68bcfc00a3c6ac304033832b183ab925738eab 100644 (file)
-#define __SP_CANVAS_C__
-
/** \file
* Port of GnomeCanvas for Inkscape needs
*
#include <gtk/gtkmain.h>
#include <gtk/gtksignal.h>
+#include <gtk/gtkversion.h>
#include <gtkmm.h>
-#include <helper/sp-marshal.h>
-#include <display/sp-canvas.h>
-#include "display-forward.h"
-#include <libnr/nr-matrix-fns.h>
-#include <libnr/nr-matrix-ops.h>
-#include <libnr/nr-convex-hull.h>
-#include "prefs-utils.h"
-#include "box3d-context.h"
+#include "helper/sp-marshal.h"
+#include <helper/recthull.h>
+#include "display/sp-canvas.h"
+#include "display/sp-canvas-group.h"
+#include <2geom/matrix.h>
+#include "libnr/nr-convex-hull.h"
+#include "preferences.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"
+#include "desktop.h"
+#include "sp-namedview.h"
+
+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;
// If any part of it is dirtied, the entire tile is dirtied (its int is nonzero) and repainted.
#define TILE_SIZE 16
-enum {
- RENDERMODE_NORMAL,
- RENDERMODE_NOAA,
- RENDERMODE_OUTLINE
-};
-
static gint const sp_canvas_update_priority = G_PRIORITY_HIGH_IDLE;
#define SP_CANVAS_WINDOW(c) (((GtkWidget *) (c))->window)
/* SPCanvasItem */
enum {ITEM_EVENT, ITEM_LAST_SIGNAL};
+enum {PROP_0, PROP_VISIBLE};
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, gchar const *first_arg_name, va_list args);
static int emit_event (SPCanvas *canvas, GdkEvent *event);
+static int pick_current_item (SPCanvas *canvas, GdkEvent *event);
static guint item_signals[ITEM_LAST_SIGNAL] = { 0 };
-static GtkObjectClass *item_parent_class;
-
/**
* Registers the SPCanvasItem class with Glib and returns its type number.
*/
{
GObjectClass *object_class = (GObjectClass *) klass;
- /* fixme: Derive from GObject */
- item_parent_class = (GtkObjectClass*)gtk_type_class (GTK_TYPE_OBJECT);
-
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,
static void
sp_canvas_item_init (SPCanvasItem *item)
{
+ // TODO items should not be visible on creation - this causes kludges with items
+ // that should be initially invisible; examples of such items: node handles, the CtrlRect
+ // used for rubberbanding, path outline, etc.
item->flags |= SP_CANVAS_ITEM_VISIBLE;
- item->xform = NR::Matrix(NR::identity());
+ item->xform = Geom::Matrix(Geom::identity());
}
/**
// 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)->setRectangle(Geom::Rect(Geom::Point(0,0),Geom::Point(0,0)));
SP_CTRLRECT(object)->update(item->xform, 0);
} else {
redraw_if_visible (item);
group_remove (SP_CANVAS_GROUP (item->parent), item);
}
- G_OBJECT_CLASS (item_parent_class)->dispose (object);
+ G_OBJECT_CLASS (g_type_class_peek(g_type_parent(sp_canvas_item_get_type())))->dispose (object);
}
/**
* NB! affine is parent2canvas.
*/
static void
-sp_canvas_item_invoke_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned int flags)
+sp_canvas_item_invoke_update (SPCanvasItem *item, Geom::Matrix const &affine, unsigned int flags)
{
/* Apply the child item's transform */
- NR::Matrix child_affine = item->xform * affine;
+ Geom::Matrix child_affine = item->xform * affine;
/* apply object flags to child flags */
int child_flags = flags & ~SP_CANVAS_UPDATE_REQUESTED;
@@ -307,7 +315,7 @@ sp_canvas_item_invoke_update (SPCanvasItem *item, NR::Matrix const &affine, unsi
* maintaining the affine invariant.
*/
static double
-sp_canvas_item_invoke_point (SPCanvasItem *item, NR::Point p, SPCanvasItem **actual_item)
+sp_canvas_item_invoke_point (SPCanvasItem *item, Geom::Point p, SPCanvasItem **actual_item)
{
if (SP_CANVAS_ITEM_GET_CLASS (item)->point)
return SP_CANVAS_ITEM_GET_CLASS (item)->point (item, p, actual_item);
@@ -323,7 +331,7 @@ sp_canvas_item_invoke_point (SPCanvasItem *item, NR::Point p, SPCanvasItem **act
* @affine: An affine transformation matrix.
*/
void
-sp_canvas_item_affine_absolute (SPCanvasItem *item, NR::Matrix const &affine)
+sp_canvas_item_affine_absolute (SPCanvasItem *item, Geom::Matrix const &affine)
{
item->xform = affine;
item->canvas->need_repick = TRUE;
}
+bool
+sp_canvas_item_is_visible (SPCanvasItem *item)
+{
+ return item->flags & SP_CANVAS_ITEM_VISIBLE;
+}
+
+
/**
* Sets visible flag on item and requests a redraw.
*/
@@ -532,8 +547,17 @@ sp_canvas_item_grab (SPCanvasItem *item, guint event_mask, GdkCursor *cursor, gu
if (item->canvas->grabbed_item)
return -1;
- if (!(item->flags & SP_CANVAS_ITEM_VISIBLE))
- return -1;
+ // This test disallows grabbing events by an invisible item, which may be useful
+ // sometimes. An example is the hidden control point used for the selector component,
+ // where it is used for object selection and rubberbanding. There seems to be nothing
+ // preventing this except this test, so I removed it.
+ // -- Krzysztof KosiĆski, 2009.08.12
+ //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) */
* Returns the product of all transformation matrices from the root item down
* to the item.
*/
-NR::Matrix sp_canvas_item_i2w_affine(SPCanvasItem const *item)
+Geom::Matrix sp_canvas_item_i2w_affine(SPCanvasItem const *item)
{
g_assert (SP_IS_CANVAS_ITEM (item)); // should we get this?
- NR::Matrix affine = NR::identity();
+ Geom::Matrix affine = Geom::identity();
while (item) {
affine *= item->xform;
static void sp_canvas_group_init (SPCanvasGroup *group);
static void sp_canvas_group_destroy (GtkObject *object);
-static void sp_canvas_group_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned int flags);
-static double sp_canvas_group_point (SPCanvasItem *item, NR::Point p, SPCanvasItem **actual_item);
+static void sp_canvas_group_update (SPCanvasItem *item, Geom::Matrix const &affine, unsigned int flags);
+static double sp_canvas_group_point (SPCanvasItem *item, Geom::Point p, SPCanvasItem **actual_item);
static void sp_canvas_group_render (SPCanvasItem *item, SPCanvasBuf *buf);
static SPCanvasItemClass *group_parent_class;
/**
* 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 GtkTypeInfo const 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;
}
/**
* Update handler for canvas groups
*/
static void
-sp_canvas_group_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned int flags)
+sp_canvas_group_update (SPCanvasItem *item, Geom::Matrix const &affine, unsigned int flags)
{
SPCanvasGroup const *group = SP_CANVAS_GROUP (item);
- NR::ConvexHull corners(NR::Point(0, 0));
+ Geom::RectHull corners(Geom::Point(0, 0));
bool empty=true;
for (GList *list = group->items; list; list = list->next) {
@@ -771,21 +795,21 @@ sp_canvas_group_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned i
if ( i->x2 > i->x1 && i->y2 > i->y1 ) {
if (empty) {
- corners = NR::ConvexHull(NR::Point(i->x1, i->y1));
+ corners = Geom::RectHull(Geom::Point(i->x1, i->y1));
empty = false;
} else {
- corners.add(NR::Point(i->x1, i->y1));
+ corners.add(Geom::Point(i->x1, i->y1));
}
- corners.add(NR::Point(i->x2, i->y2));
+ corners.add(Geom::Point(i->x2, i->y2));
}
}
- NR::Maybe<NR::Rect> const bounds = corners.bounds();
+ Geom::OptRect 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];
+ item->x1 = bounds->min()[Geom::X];
+ item->y1 = bounds->min()[Geom::Y];
+ item->x2 = bounds->max()[Geom::X];
+ item->y2 = bounds->max()[Geom::Y];
} else {
// FIXME ?
item->x1 = item->x2 = item->y1 = item->y2 = 0;
@@ -796,11 +820,11 @@ sp_canvas_group_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned i
* Point handler for canvas groups.
*/
static double
-sp_canvas_group_point (SPCanvasItem *item, NR::Point p, SPCanvasItem **actual_item)
+sp_canvas_group_point (SPCanvasItem *item, Geom::Point p, SPCanvasItem **actual_item)
{
SPCanvasGroup const *group = SP_CANVAS_GROUP (item);
- double const x = p[NR::X];
- double const y = p[NR::Y];
+ double const x = p[Geom::X];
+ double const y = p[Geom::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);
*
* \return The type ID of the SPCanvas class.
**/
-GtkType
-sp_canvas_get_type (void)
-{
- static GtkType canvas_type = 0;
-
- if (!canvas_type) {
- static GtkTypeInfo const 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;
}
/**
// See comment at in sp-canvas.h.
canvas->gen_all_enter_events = false;
+
+ canvas->drawing_disabled = false;
canvas->tiles=NULL;
canvas->tLeft=canvas->tTop=canvas->tRight=canvas->tBottom=0;
#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 |
widget->window = gdk_window_new (gtk_widget_get_parent_window (widget), &attributes, attributes_mask);
gdk_window_set_user_data (widget->window, widget);
- if ( prefs_get_int_attribute ("options.useextinput", "value", 1) )
+ Inkscape::Preferences *prefs = Inkscape::Preferences::get();
+ if ( prefs->getBool("/options/useextinput/value", true) )
gtk_widget_set_events(widget, attributes.event_mask);
widget->style = gtk_style_attach (widget->style, widget->window);
{
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);
if (!(mask & canvas->grabbed_event_mask)) return FALSE;
}
- /* Convert to world coordinates -- we have two cases because of diferent
+ /* Convert to world coordinates -- we have two cases because of different
* offsets of the fields in the event structures.
*/
if (canvas->grabbed_item && !is_descendant (canvas->current_item, canvas->grabbed_item)) {
item = canvas->grabbed_item;
} else {
+ // Make sure that current_item is up-to-date. If a snap indicator was just deleted, then
+ // sp_canvas_item_dispose has been called and there is no current_item specified. We need
+ // that though because otherwise we don't know where to send this event to, leading to a
+ // lost event. We can't wait for idle events to have current_item updated, we need it now!
+ // Otherwise, scrolling when hovering above a pre-snap indicator won't work (for example)
+ // See this bug report: https://bugs.launchpad.net/inkscape/+bug/522335/comments/8
+ if (canvas->need_repick && !canvas->in_repick && event->type == GDK_SCROLL) {
+ // To avoid side effects, we'll only do this for scroll events, because this is the
+ // only thing we want to fix here. An example of a reported side effect is that
+ // otherwise selection of nodes in the node editor by dragging a rectangle using a
+ // tablet will break
+ canvas->need_repick = FALSE;
+ pick_current_item (canvas, (GdkEvent *) event);
+ }
item = canvas->current_item;
}
/* find the closest item */
if (canvas->root->flags & SP_CANVAS_ITEM_VISIBLE) {
- sp_canvas_item_invoke_point (canvas->root, NR::Point(x, y), &canvas->new_current_item);
+ sp_canvas_item_invoke_point (canvas->root, Geom::Point(x, y), &canvas->new_current_item);
} else {
canvas->new_current_item = NULL;
}
retval = emit_event (canvas, &new_event);
}
+
+
return retval;
}
int retval = FALSE;
- /* dispatch normally regardless of the event's window if an item has
+ /* dispatch normally regardless of the event's window if an item
has a pointer grab in effect */
if (!canvas->grabbed_item &&
event->window != SP_CANVAS_WINDOW (canvas))
case GDK_BUTTON_PRESS:
case GDK_2BUTTON_PRESS:
case GDK_3BUTTON_PRESS:
- /* Pick the current item as if the button were not pressed, and
+ /* Pick the current item as if the button were not pressed, and
* then process the event.
*/
canvas->state = event->state;
break;
case GDK_BUTTON_RELEASE:
- /* Process the event as if the button were pressed, then repick
+ /* Process the event as if the button were pressed, then repick
* after the button has been released
*/
canvas->state = event->state;
canvas->state = event->state;
pick_current_item (canvas, (GdkEvent *) event);
event->state ^= mask;
+
break;
default:
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);
+ status = emit_event (canvas, (GdkEvent *) event);
+ if (event->is_hint) {
+ request_motions(widget->window, event);
+ }
- return emit_event (canvas, (GdkEvent *) event);
+ return status;
}
static void
@@ -1564,7 +1631,7 @@ 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);
@@ -1573,7 +1640,7 @@ sp_canvas_paint_single_buffer (SPCanvas *canvas, int x0, int y0, int x1, int y1,
// Mark the region clean
sp_canvas_mark_rect(canvas, x0, y0, x1, y1, 0);
- buf.buf_rowstride = sw * 3; // CAIRO FIXME: for cairo output, the buffer must be RGB unpacked, i.e. sw * 4
+ buf.buf_rowstride = sw * 4;
buf.rect.x0 = x0;
buf.rect.y0 = y0;
buf.rect.x1 = x1;
@@ -1588,13 +1655,16 @@ sp_canvas_paint_single_buffer (SPCanvas *canvas, int x0, int y0, int x1, int y1,
| (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 );
+ Inkscape::Preferences *prefs = Inkscape::Preferences::get();
+ bool fromDisplay = prefs->getBool( "/options/displayprofile/from_display");
if ( fromDisplay ) {
transf = Inkscape::colorprofile_get_display_per( canvas->cms_key ? *(canvas->cms_key) : "" );
} else {
@@ -1615,48 +1685,74 @@ 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 {
-/*
-// CAIRO FIXME: after SPCanvasBuf is made 32bpp throughout, this rgb_draw below can be replaced with the below.
-// Why this must not be done currently:
-// - all canvas items (handles, nodes etc) paint themselves assuming 24bpp
-// - cairo assumes bgra, but we have rgba, so r and b get swapped (until we paint all with cairo too)
-// - it does not seem to be any faster; in fact since with 32bpp, buf contains less pixels,
-// we need more bufs to paint a given area and as a result it's even a bit slower
-
- cairo_surface_t* cst = cairo_image_surface_create_for_data (
- buf.buf,
- CAIRO_FORMAT_RGB24, // unpacked, i.e. 32 bits! one byte is unused
- x1 - x0, y1 - y0,
- buf.buf_rowstride
- );
- cairo_t *ct = gdk_cairo_create(SP_CANVAS_WINDOW (canvas));
- cairo_set_source_surface (ct, cst, x0 - canvas->x0, y0 - canvas->y0);
- cairo_paint (ct);
- cairo_destroy (ct);
- cairo_surface_finish (cst);
- cairo_surface_destroy (cst);
-*/
#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;
+ guchar* p = buf.buf + (buf.buf_rowstride * 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);
NRRectL big_rect;
GTimeVal start_time;
int max_pixels;
- NR::Point mouse_loc;
+ Geom::Point mouse_loc;
};
/**
The default for now is the strips mode.
*/
if (bw < bh || bh < 2 * TILE_SIZE) {
- int mid = (this_rect.x0 + this_rect.x1) / 2;
+ // 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) {
+ if (setup->mouse_loc[Geom::X] < mid) {
// Always paint towards the mouse first
return sp_canvas_paint_rect_internal(setup, lo)
&& sp_canvas_paint_rect_internal(setup, hi);
&& sp_canvas_paint_rect_internal(setup, lo);
}
} else {
- int mid = (this_rect.y0 + this_rect.y1) / 2;
+ // 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) {
+ if (setup->mouse_loc[Geom::Y] < mid) {
// Always paint towards the mouse first
return sp_canvas_paint_rect_internal(setup, lo)
&& sp_canvas_paint_rect_internal(setup, hi);
// 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));
+ setup.mouse_loc = sp_canvas_window_to_world (canvas, Geom::Point(x,y));
- // CAIRO FIXME: the sw/sh calculations below all assume 24bpp, need fixing for 32bpp
- if (canvas->rendermode != RENDERMODE_OUTLINE) {
+ if (canvas->rendermode != Inkscape::RENDERMODE_OUTLINE) {
// use 256K as a compromise to not slow down gradients
- // 256K is the cached buffer and we need 3 channels
- setup.max_pixels = 87381; // 256K/3
+ // 256K is the cached buffer and we need 4 channels
+ setup.max_pixels = 65536; // 256K/4
} else {
// paths only, so 1M works faster
- // 1M is the cached buffer and we need 3 channels
- setup.max_pixels = 349525;
+ // 1M is the cached buffer and we need 4 channels
+ setup.max_pixels = 262144;
}
// Start the clock
paint (SPCanvas *canvas)
{
if (canvas->need_update) {
- sp_canvas_item_invoke_update (canvas->root, NR::identity(), 0);
+ sp_canvas_item_invoke_update (canvas->root, Geom::identity(), 0);
canvas->need_update = FALSE;
}
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 during interrupted display!
+ return TRUE;
+
+ if (canvas->drawing_disabled)
return TRUE;
/* Cause the update if necessary */
if (canvas->need_update) {
- sp_canvas_item_invoke_update (canvas->root, NR::identity(), 0);
+ sp_canvas_item_invoke_update (canvas->root, Geom::identity(), 0);
canvas->need_update = FALSE;
}
}
/**
- * 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, bool is_scrolling)
@@ -2092,12 +2192,12 @@ sp_canvas_scroll_to (SPCanvas *canvas, double cx, double cy, unsigned int clear,
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;
@@ -2116,14 +2216,6 @@ sp_canvas_scroll_to (SPCanvas *canvas, double cx, double cy, unsigned int clear,
// scrolling as part of zoom; do nothing here - the next do_update will perform full redraw
}
- /* update perspective lines if we are in the 3D box tool (so that infinite ones are shown correctly) */
- SPEventContext *ec = inkscape_active_event_context();
- if (SP_IS_3DBOX_CONTEXT (ec)) {
- // We could avoid redraw during panning by checking the status of is_scrolling, but this is
- // neither faster nor does it get rid of artefacts, so we update PLs unconditionally
- SP3DBoxContext *bc = SP_3DBOX_CONTEXT (ec);
- bc->_vpdrag->updateLines();
- }
}
/**
@@ -2211,51 +2303,58 @@ void sp_canvas_world_to_window(SPCanvas const *canvas, double worldx, double wor
/**
* Converts point from win to world coordinates.
*/
-NR::Point sp_canvas_window_to_world(SPCanvas const *canvas, NR::Point const win)
+Geom::Point sp_canvas_window_to_world(SPCanvas const *canvas, Geom::Point const win)
{
g_assert (canvas != NULL);
g_assert (SP_IS_CANVAS (canvas));
- return NR::Point(canvas->x0 + win[0], canvas->y0 + win[1]);
+ return Geom::Point(canvas->x0 + win[0], canvas->y0 + win[1]);
}
/**
* Converts point from world to win coordinates.
*/
-NR::Point sp_canvas_world_to_window(SPCanvas const *canvas, NR::Point const world)
+Geom::Point sp_canvas_world_to_window(SPCanvas const *canvas, Geom::Point const world)
{
g_assert (canvas != NULL);
g_assert (SP_IS_CANVAS (canvas));
- return NR::Point(world[0] - canvas->x0, world[1] - canvas->y0);
+ return Geom::Point(world[0] - canvas->x0, world[1] - canvas->y0);
}
/**
* Returns true if point given in world coordinates is inside window.
*/
-bool sp_canvas_world_pt_inside_window(SPCanvas const *canvas, NR::Point const &world)
+bool sp_canvas_world_pt_inside_window(SPCanvas const *canvas, Geom::Point const &world)
{
g_assert( canvas != NULL );
g_assert(SP_IS_CANVAS(canvas));
- using NR::X;
- using NR::Y;
GtkWidget const &w = *GTK_WIDGET(canvas);
- return ( ( canvas->x0 <= world[X] ) &&
- ( canvas->y0 <= world[Y] ) &&
- ( world[X] < canvas->x0 + w.allocation.width ) &&
- ( world[Y] < canvas->y0 + w.allocation.height ) );
+ return ( ( canvas->x0 <= world[Geom::X] ) &&
+ ( canvas->y0 <= world[Geom::Y] ) &&
+ ( world[Geom::X] < canvas->x0 + w.allocation.width ) &&
+ ( world[Geom::Y] < canvas->y0 + w.allocation.height ) );
}
/**
- * Return canvas window coordinates as NR::Rect.
+ * Return canvas window coordinates as Geom::Rect.
*/
-NR::Rect SPCanvas::getViewbox() const
+Geom::Rect SPCanvas::getViewbox() const
{
GtkWidget const *w = GTK_WIDGET(this);
+ return Geom::Rect(Geom::Point(dx0, dy0),
+ Geom::Point(dx0 + w->allocation.width, dy0 + w->allocation.height));
+}
- 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)
@@ -2351,4 +2450,4 @@ void sp_canvas_mark_rect(SPCanvas* canvas, int nl, int nt, int nr, int nb, uint8
fill-column:99
End:
*/
-// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:encoding=utf-8:textwidth=99 :
+// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:fileencoding=utf-8:textwidth=99 :