diff --git a/src/object-edit.cpp b/src/object-edit.cpp
index fefdc8791521b253b25c594f1a5033efefbe0c02..b3d661586a2b08b2f2e012052f8779e6706bb1e7 100644 (file)
--- a/src/object-edit.cpp
+++ b/src/object-edit.cpp
#include "sp-item.h"
#include "sp-rect.h"
+#include "box3d.h"
#include "sp-ellipse.h"
#include "sp-star.h"
#include "sp-spiral.h"
#include "desktop-affine.h"
#include <style.h>
#include "desktop.h"
+#include "desktop-handles.h"
#include "sp-namedview.h"
#include "sp-pattern.h"
#include <libnr/nr-scale-ops.h>
-
#include "xml/repr.h"
#include "isnan.h"
#define sp_round(v,m) (((v) < 0.0) ? ((ceil((v) / (m) - 0.5)) * (m)) : ((floor((v) / (m) + 0.5)) * (m)))
static SPKnotHolder *sp_rect_knot_holder(SPItem *item, SPDesktop *desktop);
+static SPKnotHolder *box3d_knot_holder(SPItem *item, SPDesktop *desktop);
static SPKnotHolder *sp_arc_knot_holder(SPItem *item, SPDesktop *desktop);
static SPKnotHolder *sp_star_knot_holder(SPItem *item, SPDesktop *desktop);
static SPKnotHolder *sp_spiral_knot_holder(SPItem *item, SPDesktop *desktop);
static SPKnotHolder *sp_offset_knot_holder(SPItem *item, SPDesktop *desktop);
-static SPKnotHolder *sp_path_knot_holder(SPItem *item, SPDesktop *desktop);
+static SPKnotHolder *sp_misc_knot_holder(SPItem *item, SPDesktop *desktop);
static SPKnotHolder *sp_flowtext_knot_holder(SPItem *item, SPDesktop *desktop);
static void sp_pat_knot_holder(SPItem *item, SPKnotHolder *knot_holder);
{
if (SP_IS_RECT(item)) {
return sp_rect_knot_holder(item, desktop);
+ } else if (SP_IS_BOX3D(item)) {
+ return box3d_knot_holder(item, desktop);
} else if (SP_IS_ARC(item)) {
return sp_arc_knot_holder(item, desktop);
} else if (SP_IS_STAR(item)) {
return sp_spiral_knot_holder(item, desktop);
} else if (SP_IS_OFFSET(item)) {
return sp_offset_knot_holder(item, desktop);
- } else if (SP_IS_PATH(item)) {
- return sp_path_knot_holder(item, desktop);
} else if (SP_IS_FLOWTEXT(item) && SP_FLOWTEXT(item)->has_internal_frame()) {
return sp_flowtext_knot_holder(item, desktop);
+ } else {
+ return sp_misc_knot_holder(item, desktop);
}
return NULL;
}
static void
-sp_pattern_angle_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_pattern_angle_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
int const snaps = prefs_get_int_attribute("options.rotationsnapsperpi", "value", 12);
}
static void
-sp_pattern_scale_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_pattern_scale_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint /*state*/)
{
SPPattern *pat = SP_PATTERN(SP_STYLE_FILL_SERVER(SP_OBJECT(item)->style));
static NR::Point snap_knot_position(SPItem *item, NR::Point const &p)
{
SPDesktop const *desktop = inkscape_active_desktop();
- NR::Point s = sp_desktop_dt2root_xy_point(desktop, p);
+ NR::Matrix const i2d (sp_item_i2d_affine (item));
+ NR::Point s = p * i2d;
SnapManager const &m = desktop->namedview->snap_manager;
- s = m.freeSnap(Inkscape::Snapper::BBOX_POINT | Inkscape::Snapper::SNAP_POINT, s, item).getPoint();
- return sp_desktop_root2dt_xy_point(desktop, s);
+ s = m.freeSnap(Inkscape::Snapper::SNAPPOINT_NODE, s, item).getPoint();
+ return s * i2d.inverse();
}
static NR::Point sp_rect_rx_get(SPItem *item)
return NR::Point(rect->x.computed + rect->width.computed - rect->rx.computed, rect->y.computed);
}
-static void sp_rect_rx_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+static void sp_rect_rx_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
SPRect *rect = SP_RECT(item);
-
- NR::Point const s = snap_knot_position(rect, p);
+
+ //In general we cannot just snap this radius to an arbitrary point, as we have only a single
+ //degree of freedom. For snapping to an arbitrary point we need two DOF. If we're going to snap
+ //the radius then we should have a constrained snap. snap_knot_position() is unconstrained
if (state & GDK_CONTROL_MASK) {
gdouble temp = MIN(rect->height.computed, rect->width.computed) / 2.0;
- rect->rx.computed = rect->ry.computed = CLAMP(rect->x.computed + rect->width.computed - s[NR::X], 0.0, temp);
+ rect->rx.computed = rect->ry.computed = CLAMP(rect->x.computed + rect->width.computed - p[NR::X], 0.0, temp);
rect->rx._set = rect->ry._set = true;
} else {
- rect->rx.computed = CLAMP(rect->x.computed + rect->width.computed - s[NR::X], 0.0, rect->width.computed / 2.0);
+ rect->rx.computed = CLAMP(rect->x.computed + rect->width.computed - p[NR::X], 0.0, rect->width.computed / 2.0);
rect->rx._set = true;
}
return NR::Point(rect->x.computed + rect->width.computed, rect->y.computed + rect->ry.computed);
}
-static void sp_rect_ry_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+static void sp_rect_ry_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
SPRect *rect = SP_RECT(item);
-
- NR::Point const s = snap_knot_position(rect, p);
+
+ //In general we cannot just snap this radius to an arbitrary point, as we have only a single
+ //degree of freedom. For snapping to an arbitrary point we need two DOF. If we're going to snap
+ //the radius then we should have a constrained snap. snap_knot_position() is unconstrained
if (state & GDK_CONTROL_MASK) {
gdouble temp = MIN(rect->height.computed, rect->width.computed) / 2.0;
- rect->rx.computed = rect->ry.computed = CLAMP(s[NR::Y] - rect->y.computed, 0.0, temp);
+ rect->rx.computed = rect->ry.computed = CLAMP(p[NR::Y] - rect->y.computed, 0.0, temp);
rect->ry._set = rect->rx._set = true;
} else {
if (!rect->rx._set || rect->rx.computed == 0) {
- rect->ry.computed = CLAMP(s[NR::Y] - rect->y.computed,
+ rect->ry.computed = CLAMP(p[NR::Y] - rect->y.computed,
0.0,
MIN(rect->height.computed / 2.0, rect->width.computed / 2.0));
} else {
- rect->ry.computed = CLAMP(s[NR::Y] - rect->y.computed,
+ rect->ry.computed = CLAMP(p[NR::Y] - rect->y.computed,
0.0,
rect->height.computed / 2.0);
}
return knot_holder;
}
+/* Box3D (= the new 3D box structure) */
+
+static NR::Point box3d_knot_get(SPItem *item, guint knot_id)
+{
+ return box3d_get_corner_screen(SP_BOX3D(item), knot_id);
+}
+
+static void box3d_knot_set(SPItem *item, guint knot_id, NR::Point const &new_pos, NR::Point const &/*origin*/, guint state)
+{
+ NR::Point const s = snap_knot_position(item, new_pos);
+
+ g_assert(item != NULL);
+ SPBox3D *box = SP_BOX3D(item);
+ NR::Matrix const i2d (sp_item_i2d_affine (item));
+
+ Box3D::Axis movement;
+ if ((knot_id < 4) != (state & GDK_SHIFT_MASK)) {
+ movement = Box3D::XY;
+ } else {
+ movement = Box3D::Z;
+ }
+
+ box3d_set_corner (box, knot_id, s * i2d, movement, (state & GDK_CONTROL_MASK));
+ box3d_set_z_orders(box);
+ box3d_position_set(box);
+}
+
+static NR::Point box3d_knot_center_get (SPItem *item)
+{
+ return box3d_get_center_screen (SP_BOX3D(item));
+}
+
+static void box3d_knot_center_set(SPItem *item, NR::Point const &new_pos, NR::Point const &origin, guint state)
+{
+ NR::Point const s = snap_knot_position(item, new_pos);
+
+ SPBox3D *box = SP_BOX3D(item);
+ NR::Matrix const i2d (sp_item_i2d_affine (item));
+
+ box3d_set_center (SP_BOX3D(item), s * i2d, origin * i2d, !(state & GDK_SHIFT_MASK) ? Box3D::XY : Box3D::Z,
+ state & GDK_CONTROL_MASK);
+
+ box3d_set_z_orders(box);
+ box3d_position_set(box);
+}
+
+static void box3d_knot0_set(SPItem *item, NR::Point const &new_pos, NR::Point const &origin, guint state)
+{
+ box3d_knot_set(item, 0, new_pos, origin, state);
+}
+
+static void box3d_knot1_set(SPItem *item, NR::Point const &new_pos, NR::Point const &origin, guint state)
+{
+ box3d_knot_set(item, 1, new_pos, origin, state);
+}
+
+static void box3d_knot2_set(SPItem *item, NR::Point const &new_pos, NR::Point const &origin, guint state)
+{
+ box3d_knot_set(item, 2, new_pos, origin, state);
+}
+
+static void box3d_knot3_set(SPItem *item, NR::Point const &new_pos, NR::Point const &origin, guint state)
+{
+ box3d_knot_set(item, 3, new_pos, origin, state);
+}
+
+static void box3d_knot4_set(SPItem *item, NR::Point const &new_pos, NR::Point const &origin, guint state)
+{
+ box3d_knot_set(item, 4, new_pos, origin, state);
+}
+
+static void box3d_knot5_set(SPItem *item, NR::Point const &new_pos, NR::Point const &origin, guint state)
+{
+ box3d_knot_set(item, 5, new_pos, origin, state);
+}
+
+static void box3d_knot6_set(SPItem *item, NR::Point const &new_pos, NR::Point const &origin, guint state)
+{
+ box3d_knot_set(item, 6, new_pos, origin, state);
+}
+
+static void box3d_knot7_set(SPItem *item, NR::Point const &new_pos, NR::Point const &origin, guint state)
+{
+ box3d_knot_set(item, 7, new_pos, origin, state);
+}
+
+static NR::Point box3d_knot0_get(SPItem *item)
+{
+ return box3d_knot_get(item, 0);
+}
+
+static NR::Point box3d_knot1_get(SPItem *item)
+{
+ return box3d_knot_get(item, 1);
+}
+
+static NR::Point box3d_knot2_get(SPItem *item)
+{
+ return box3d_knot_get(item, 2);
+}
+
+static NR::Point box3d_knot3_get(SPItem *item)
+{
+ return box3d_knot_get(item, 3);
+}
+
+static NR::Point box3d_knot4_get(SPItem *item)
+{
+ return box3d_knot_get(item, 4);
+}
+
+static NR::Point box3d_knot5_get(SPItem *item)
+{
+ return box3d_knot_get(item, 5);
+}
+
+static NR::Point box3d_knot6_get(SPItem *item)
+{
+ return box3d_knot_get(item, 6);
+}
+
+static NR::Point box3d_knot7_get(SPItem *item)
+{
+ return box3d_knot_get(item, 7);
+}
+
+SPKnotHolder *
+box3d_knot_holder(SPItem *item, SPDesktop *desktop)
+{
+ g_assert(item != NULL);
+ SPKnotHolder *knot_holder = sp_knot_holder_new(desktop, item, NULL);
+
+ sp_knot_holder_add(knot_holder, box3d_knot0_set, box3d_knot0_get, NULL,
+ _("Resize box in X/Y direction; with <b>Shift</b> along the Z axis; with <b>Ctrl</b> to constrain to the directions of edges or diagonals"));
+ sp_knot_holder_add(knot_holder, box3d_knot1_set, box3d_knot1_get, NULL,
+ _("Resize box in X/Y direction; with <b>Shift</b> along the Z axis; with <b>Ctrl</b> to constrain to the directions of edges or diagonals"));
+ sp_knot_holder_add(knot_holder, box3d_knot2_set, box3d_knot2_get, NULL,
+ _("Resize box in X/Y direction; with <b>Shift</b> along the Z axis; with <b>Ctrl</b> to constrain to the directions of edges or diagonals"));
+ sp_knot_holder_add(knot_holder, box3d_knot3_set, box3d_knot3_get, NULL,
+ _("Resize box in X/Y direction; with <b>Shift</b> along the Z axis; with <b>Ctrl</b> to constrain to the directions of edges or diagonals"));
+ sp_knot_holder_add(knot_holder, box3d_knot4_set, box3d_knot4_get, NULL,
+ _("Resize box along the Z axis; with <b>Shift</b> in X/Y direction; with <b>Ctrl</b> to constrain to the directions of edges or diagonals"));
+ sp_knot_holder_add(knot_holder, box3d_knot5_set, box3d_knot5_get, NULL,
+ _("Resize box along the Z axis; with <b>Shift</b> in X/Y direction; with <b>Ctrl</b> to constrain to the directions of edges or diagonals"));
+ sp_knot_holder_add(knot_holder, box3d_knot6_set, box3d_knot6_get, NULL,
+ _("Resize box along the Z axis; with <b>Shift</b> in X/Y direction; with <b>Ctrl</b> to constrain to the directions of edges or diagonals"));
+ sp_knot_holder_add(knot_holder, box3d_knot7_set, box3d_knot7_get, NULL,
+ _("Resize box along the Z axis; with <b>Shift</b> in X/Y direction; with <b>Ctrl</b> to constrain to the directions of edges or diagonals"));
+
+ // center dragging
+ sp_knot_holder_add_full(knot_holder, box3d_knot_center_set, box3d_knot_center_get, NULL,
+ SP_KNOT_SHAPE_CROSS, SP_KNOT_MODE_XOR,_("Move the box in perspective"));
+
+ sp_pat_knot_holder(item, knot_holder);
+
+ return knot_holder;
+}
+
+
+
/* SPArc */
/*
}
static void
-sp_arc_start_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_arc_start_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
int snaps = prefs_get_int_attribute("options.rotationsnapsperpi", "value", 12);
}
static void
-sp_arc_end_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_arc_end_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
int snaps = prefs_get_int_attribute("options.rotationsnapsperpi", "value", 12);
static void
-sp_arc_rx_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_arc_rx_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
SPGenericEllipse *ge = SP_GENERICELLIPSE(item);
SPArc *arc = SP_ARC(item);
-
+
NR::Point const s = snap_knot_position(arc, p);
ge->rx.computed = fabs( ge->cx.computed - s[NR::X] );
}
static void
-sp_arc_ry_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_arc_ry_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
SPGenericEllipse *ge = SP_GENERICELLIPSE(item);
SPArc *arc = SP_ARC(item);
-
+
NR::Point const s = snap_knot_position(arc, p);
ge->ry.computed = fabs( ge->cy.computed - s[NR::Y] );
/* SPStar */
static void
-sp_star_knot1_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_star_knot1_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
SPStar *star = SP_STAR(item);
- NR::Point d = p - star->center;
+ NR::Point const s = snap_knot_position(star, p);
+
+ NR::Point d = s - star->center;
double arg1 = atan2(d);
double darg1 = arg1 - star->arg[0];
@@ -729,11 +900,14 @@ sp_star_knot1_set(SPItem *item, NR::Point const &p, NR::Point const &origin, gui
}
static void
-sp_star_knot2_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_star_knot2_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
SPStar *star = SP_STAR(item);
+
+ NR::Point const s = snap_knot_position(star, p);
+
if (star->flatsided == false) {
- NR::Point d = p - star->center;
+ NR::Point d = s - star->center;
double arg1 = atan2(d);
double darg1 = arg1 - star->arg[1];
* [control] constrain inner arg to round per PI/4
*/
static void
-sp_spiral_inner_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_spiral_inner_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
int snaps = prefs_get_int_attribute("options.rotationsnapsperpi", "value", 12);
@@ -861,7 +1035,7 @@ sp_spiral_inner_set(SPItem *item, NR::Point const &p, NR::Point const &origin, g
* [control] constrain inner arg to round per PI/4
*/
static void
-sp_spiral_outer_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_spiral_outer_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint state)
{
int snaps = prefs_get_int_attribute("options.rotationsnapsperpi", "value", 12);
/* SPOffset */
static void
-sp_offset_offset_set(SPItem *item, NR::Point const &p, NR::Point const &origin, guint state)
+sp_offset_offset_set(SPItem *item, NR::Point const &p, NR::Point const &/*origin*/, guint /*state*/)
{
SPOffset *offset = SP_OFFSET(item);
}
static SPKnotHolder *
-sp_path_knot_holder(SPItem *item, SPDesktop *desktop) // FIXME: eliminate, instead make a pattern-drag similar to gradient-drag
+sp_misc_knot_holder(SPItem *item, SPDesktop *desktop) // FIXME: eliminate, instead make a pattern-drag similar to gradient-drag
{
- if ((SP_OBJECT(item)->style->fill.type == SP_PAINT_TYPE_PAINTSERVER)
+ if ((SP_OBJECT(item)->style->fill.isPaintserver())
&& SP_IS_PATTERN(SP_STYLE_FILL_SERVER(SP_OBJECT(item)->style)))
{
SPKnotHolder *knot_holder = sp_knot_holder_new(desktop, item, NULL);
@@ -1031,7 +1205,7 @@ sp_path_knot_holder(SPItem *item, SPDesktop *desktop) // FIXME: eliminate, inste
static void
sp_pat_knot_holder(SPItem *item, SPKnotHolder *knot_holder)
{
- if ((SP_OBJECT(item)->style->fill.type == SP_PAINT_TYPE_PAINTSERVER)
+ if ((SP_OBJECT(item)->style->fill.isPaintserver())
&& SP_IS_PATTERN(SP_STYLE_FILL_SERVER(SP_OBJECT(item)->style)))
{
sp_knot_holder_add_full(knot_holder, sp_pattern_xy_set, sp_pattern_xy_get, NULL, SP_KNOT_SHAPE_CROSS, SP_KNOT_MODE_XOR,