#define __GRADIENT_DRAG_C__

#ifdef HAVE_CONFIG_H

#include "config.h"

#endif

#include <glibmm/i18n.h>

#include <cstring>

#include <string>

#include "desktop-handles.h"

#include "selection.h"

#include "desktop.h"

#include "desktop-style.h"

#include "document.h"

#include "display/sp-ctrlline.h"

#include "xml/repr.h"

#include "svg/css-ostringstream.h"

#include "svg/svg.h"

#include "libnr/nr-point-fns.h"

#include "prefs-utils.h"

#include "sp-item.h"

#include "style.h"

#include "knot.h"

#include "sp-linear-gradient.h"

#include "sp-radial-gradient.h"

#include "gradient-chemistry.h"

#include "gradient-drag.h"

#include "sp-stop.h"

#include "snap.h"

#include "sp-namedview.h"

#include "selection-chemistry.h"

#define GR_KNOT_COLOR_NORMAL 0xffffff00

#define GR_KNOT_COLOR_MOUSEOVER 0xff000000

#define GR_KNOT_COLOR_SELECTED 0x0000ff00

#define GR_LINE_COLOR_FILL 0x0000ff7f

#define GR_LINE_COLOR_STROKE 0x9999007f

#define SNAP_DIST 5

#define MERGE_DIST 0.1

SPKnotShapeType gr_knot_shapes [] = {

SP_KNOT_SHAPE_SQUARE, //POINT_LG_BEGIN

SP_KNOT_SHAPE_CIRCLE, //POINT_LG_END

SP_KNOT_SHAPE_DIAMOND, //POINT_LG_MID

SP_KNOT_SHAPE_SQUARE, // POINT_RG_CENTER

SP_KNOT_SHAPE_CIRCLE, // POINT_RG_R1

SP_KNOT_SHAPE_CIRCLE, // POINT_RG_R2

SP_KNOT_SHAPE_CROSS, // POINT_RG_FOCUS

SP_KNOT_SHAPE_DIAMOND, //POINT_RG_MID1

SP_KNOT_SHAPE_DIAMOND //POINT_RG_MID2

};

const gchar *gr_knot_descr [] = {

N_("Linear gradient <b>start</b>"), //POINT_LG_BEGIN

N_("Linear gradient <b>end</b>"),

N_("Linear gradient <b>mid stop</b>"),

N_("Radial gradient <b>center</b>"),

N_("Radial gradient <b>radius</b>"),

N_("Radial gradient <b>radius</b>"),

N_("Radial gradient <b>focus</b>"), // POINT_RG_FOCUS

N_("Radial gradient <b>mid stop</b>"),

N_("Radial gradient <b>mid stop</b>")

};

static void

gr_drag_sel_changed(Inkscape::Selection */*selection*/, gpointer data)

{

GrDrag *drag = (GrDrag *) data;

drag->updateDraggers ();

drag->updateLines ();

drag->updateLevels ();

}

static void

gr_drag_sel_modified (Inkscape::Selection */*selection*/, guint /*flags*/, gpointer data)

{

GrDrag *drag = (GrDrag *) data;

if (drag->local_change) {

drag->local_change = false;

} else {

drag->updateDraggers ();

}

drag->updateLines ();

drag->updateLevels ();

}

gr_drag_style_query (SPStyle *style, int property, gpointer data)

{

GrDrag *drag = (GrDrag *) data;

if (property != QUERY_STYLE_PROPERTY_FILL && property != QUERY_STYLE_PROPERTY_STROKE && property != QUERY_STYLE_PROPERTY_MASTEROPACITY) {

return QUERY_STYLE_NOTHING;

}

if (!drag->selected) {

return QUERY_STYLE_NOTHING;

} else {

int ret = QUERY_STYLE_NOTHING;

float cf[4];

cf[0] = cf[1] = cf[2] = cf[3] = 0;

int count = 0;

for (GList *i = drag->selected; i != NULL; i = i->next) { // for all selected draggers

GrDragger *d = (GrDragger *) i->data;

for (GSList const* j = d->draggables; j != NULL; j = j->next) { // for all draggables of dragger

GrDraggable *draggable = (GrDraggable *) j->data;

if (ret == QUERY_STYLE_NOTHING) {

ret = QUERY_STYLE_SINGLE;

} else if (ret == QUERY_STYLE_SINGLE) {

ret = QUERY_STYLE_MULTIPLE_AVERAGED;

}

guint32 c = sp_item_gradient_stop_query_style (draggable->item, draggable->point_type, draggable->point_i, draggable->fill_or_stroke);

cf[0] += SP_RGBA32_R_F (c);

cf[1] += SP_RGBA32_G_F (c);

cf[2] += SP_RGBA32_B_F (c);

cf[3] += SP_RGBA32_A_F (c);

count ++;

}

}

if (count) {

cf[0] /= count;

cf[1] /= count;

cf[2] /= count;

cf[3] /= count;

// set both fill and stroke with our stop-color and stop-opacity

style->fill.clear();

style->fill.setColor( cf[0], cf[1], cf[2] );

style->fill.set = TRUE;

style->stroke.clear();

style->stroke.setColor( cf[0], cf[1], cf[2] );

style->stroke.set = TRUE;

style->fill_opacity.value = SP_SCALE24_FROM_FLOAT (1.0);

style->fill_opacity.set = TRUE;

style->stroke_opacity.value = SP_SCALE24_FROM_FLOAT (1.0);

style->stroke_opacity.set = TRUE;

style->opacity.value = SP_SCALE24_FROM_FLOAT (cf[3]);

style->opacity.set = TRUE;

}

return ret;

}

}

gr_drag_style_set (const SPCSSAttr *css, gpointer data)

{

GrDrag *drag = (GrDrag *) data;

if (!drag->selected)

return false;

SPCSSAttr *stop = sp_repr_css_attr_new ();

// See if the css contains interesting properties, and if so, translate them into the format

// acceptable for gradient stops

// any of color properties, in order of increasing priority:

if (css->attribute("flood-color"))

sp_repr_css_set_property (stop, "stop-color", css->attribute("flood-color"));

if (css->attribute("lighting-color"))

sp_repr_css_set_property (stop, "stop-color", css->attribute("lighting-color"));

if (css->attribute("color"))

sp_repr_css_set_property (stop, "stop-color", css->attribute("color"));

if (css->attribute("stroke") && strcmp(css->attribute("stroke"), "none"))

sp_repr_css_set_property (stop, "stop-color", css->attribute("stroke"));

if (css->attribute("fill") && strcmp(css->attribute("fill"), "none"))

sp_repr_css_set_property (stop, "stop-color", css->attribute("fill"));

if (css->attribute("stop-color"))

sp_repr_css_set_property (stop, "stop-color", css->attribute("stop-color"));

if (css->attribute("stop-opacity")) { // direct setting of stop-opacity has priority

sp_repr_css_set_property (stop, "stop-opacity", css->attribute("stop-opacity"));

} else { // multiply all opacity properties:

gdouble accumulated = 1.0;

accumulated *= sp_svg_read_percentage(css->attribute("flood-opacity"), 1.0);

accumulated *= sp_svg_read_percentage(css->attribute("opacity"), 1.0);

accumulated *= sp_svg_read_percentage(css->attribute("stroke-opacity"), 1.0);

accumulated *= sp_svg_read_percentage(css->attribute("fill-opacity"), 1.0);

Inkscape::CSSOStringStream os;

os << accumulated;

sp_repr_css_set_property (stop, "stop-opacity", os.str().c_str());

if ((css->attribute("fill") && !css->attribute("stroke") && !strcmp(css->attribute("fill"), "none")) ||

(css->attribute("stroke") && !css->attribute("fill") && !strcmp(css->attribute("stroke"), "none")))

sp_repr_css_set_property (stop, "stop-opacity", "0"); // if a single fill/stroke property is set to none, don't change color, set opacity to 0

}

if (!stop->attributeList()) { // nothing for us here, pass it on

sp_repr_css_attr_unref(stop);

return false;

}

for (GList const* sel = drag->selected; sel != NULL; sel = sel->next) { // for all selected draggers

GrDragger* dragger = (GrDragger*) sel->data;

for (GSList const* i = dragger->draggables; i != NULL; i = i->next) { // for all draggables of dragger

GrDraggable *draggable = (GrDraggable *) i->data;

drag->local_change = true;

sp_item_gradient_stop_set_style (draggable->item, draggable->point_type, draggable->point_i, draggable->fill_or_stroke, stop);

}

}

//sp_repr_css_print(stop);

sp_repr_css_attr_unref(stop);

return true;

}

guint32 GrDrag::getColor()

{

if (!selected) return 0;

float cf[4];

cf[0] = cf[1] = cf[2] = cf[3] = 0;

int count = 0;

for (GList *i = selected; i != NULL; i = i->next) { // for all selected draggers

GrDragger *d = (GrDragger *) i->data;

for (GSList const* j = d->draggables; j != NULL; j = j->next) { // for all draggables of dragger

GrDraggable *draggable = (GrDraggable *) j->data;

guint32 c = sp_item_gradient_stop_query_style (draggable->item, draggable->point_type, draggable->point_i, draggable->fill_or_stroke);

cf[0] += SP_RGBA32_R_F (c);

cf[1] += SP_RGBA32_G_F (c);

cf[2] += SP_RGBA32_B_F (c);

cf[3] += SP_RGBA32_A_F (c);

count ++;

}

}

if (count) {

cf[0] /= count;

cf[1] /= count;

cf[2] /= count;

cf[3] /= count;

}

return SP_RGBA32_F_COMPOSE(cf[0], cf[1], cf[2], cf[3]);

}

SPStop *

GrDrag::addStopNearPoint (SPItem *item, NR::Point mouse_p, double tolerance)

{

gfloat offset; // type of SPStop.offset = gfloat

SPGradient *gradient;

bool fill_or_stroke = true;

bool r1_knot = false;

bool addknot = false;

do {

gradient = sp_item_gradient (item, fill_or_stroke);

if (SP_IS_LINEARGRADIENT(gradient)) {

NR::Point begin = sp_item_gradient_get_coords(item, POINT_LG_BEGIN, 0, fill_or_stroke);

NR::Point end = sp_item_gradient_get_coords(item, POINT_LG_END, 0, fill_or_stroke);

NR::Point nearest = snap_vector_midpoint (mouse_p, begin, end, 0);

double dist_screen = NR::L2 (mouse_p - nearest);

if ( dist_screen < tolerance ) {

// add the knot

offset = get_offset_between_points(nearest, begin, end);

addknot = true;

break; // break out of the while loop: add only one knot

}

} else if (SP_IS_RADIALGRADIENT(gradient)) {

NR::Point begin = sp_item_gradient_get_coords(item, POINT_RG_CENTER, 0, fill_or_stroke);

NR::Point end = sp_item_gradient_get_coords(item, POINT_RG_R1, 0, fill_or_stroke);

NR::Point nearest = snap_vector_midpoint (mouse_p, begin, end, 0);

double dist_screen = NR::L2 (mouse_p - nearest);

if ( dist_screen < tolerance ) {

offset = get_offset_between_points(nearest, begin, end);

addknot = true;

r1_knot = true;

break; // break out of the while loop: add only one knot

}

end = sp_item_gradient_get_coords(item, POINT_RG_R2, 0, fill_or_stroke);

nearest = snap_vector_midpoint (mouse_p, begin, end, 0);

dist_screen = NR::L2 (mouse_p - nearest);

if ( dist_screen < tolerance ) {

offset = get_offset_between_points(nearest, begin, end);

addknot = true;

r1_knot = false;

break; // break out of the while loop: add only one knot

}

}

fill_or_stroke = !fill_or_stroke;

} while (!fill_or_stroke && !addknot) ;

if (addknot) {

SPGradient *vector = sp_gradient_get_forked_vector_if_necessary (gradient, false);

SPStop* prev_stop = sp_first_stop(vector);

SPStop* next_stop = sp_next_stop(prev_stop);

guint i = 1;

while ( (next_stop) && (next_stop->offset < offset) ) {

prev_stop = next_stop;

next_stop = sp_next_stop(next_stop);

i++;

}

if (!next_stop) {

// logical error: the endstop should have offset 1 and should always be more than this offset here

return NULL;

}

SPStop *newstop = sp_vector_add_stop (vector, prev_stop, next_stop, offset);

sp_gradient_ensure_vector (gradient);

updateDraggers();

return newstop;

}

return NULL;

}

GrDrag::dropColor(SPItem */*item*/, gchar *c, NR::Point p)

{

// first, see if we can drop onto one of the existing draggers

for (GList *i = draggers; i != NULL; i = i->next) { // for all draggables of dragger

GrDragger *d = (GrDragger *) i->data;

if (NR::L2(p - d->point)*desktop->current_zoom() < 5) {

SPCSSAttr *stop = sp_repr_css_attr_new ();

sp_repr_css_set_property (stop, "stop-color", c);

sp_repr_css_set_property (stop, "stop-opacity", "1");

for (GSList *j = d->draggables; j != NULL; j = j->next) { // for all draggables of dragger

GrDraggable *draggable = (GrDraggable *) j->data;

local_change = true;

sp_item_gradient_stop_set_style (draggable->item, draggable->point_type, draggable->point_i, draggable->fill_or_stroke, stop);

}

sp_repr_css_attr_unref(stop);

return true;

}

}

// now see if we're over line and create a new stop

bool over_line = false;

SPCtrlLine *line = NULL;

if (lines) {

for (GSList *l = lines; (l != NULL) && (!over_line); l = l->next) {

line = (SPCtrlLine*) l->data;

NR::Point nearest = snap_vector_midpoint (p, line->s, line->e, 0);

double dist_screen = NR::L2 (p - nearest) * desktop->current_zoom();

if (line->item && dist_screen < 5) {

SPStop *stop = addStopNearPoint (line->item, p, 5/desktop->current_zoom());

if (stop) {

SPCSSAttr *css = sp_repr_css_attr_new ();

sp_repr_css_set_property (css, "stop-color", c);

sp_repr_css_set_property (css, "stop-opacity", "1");

sp_repr_css_change (SP_OBJECT_REPR (stop), css, "style");

return true;

}

}

}

}

return false;

}

GrDrag::GrDrag(SPDesktop *desktop) {

this->desktop = desktop;

this->selection = sp_desktop_selection(desktop);

this->draggers = NULL;

this->lines = NULL;

this->selected = NULL;

this->hor_levels.clear();

this->vert_levels.clear();

this->local_change = false;

this->sel_changed_connection = this->selection->connectChanged(

sigc::bind (

sigc::ptr_fun(&gr_drag_sel_changed),

(gpointer)this )

);

this->sel_modified_connection = this->selection->connectModified(

sigc::bind(

sigc::ptr_fun(&gr_drag_sel_modified),

(gpointer)this )

);

this->style_set_connection = this->desktop->connectSetStyle(

sigc::bind(

sigc::ptr_fun(&gr_drag_style_set),

(gpointer)this )

);

this->style_query_connection = this->desktop->connectQueryStyle(

sigc::bind(

sigc::ptr_fun(&gr_drag_style_query),

(gpointer)this )

);

this->updateDraggers ();

this->updateLines ();

this->updateLevels ();

if (desktop->gr_item) {

this->setSelected (getDraggerFor (desktop->gr_item, desktop->gr_point_type, desktop->gr_point_i, desktop->gr_fill_or_stroke));

}

}

GrDrag::~GrDrag()

{

this->sel_changed_connection.disconnect();

this->sel_modified_connection.disconnect();

this->style_set_connection.disconnect();

this->style_query_connection.disconnect();

if (this->selected) {

GrDraggable *draggable = (GrDraggable *) ((GrDragger*)this->selected->data)->draggables->data;

desktop->gr_item = draggable->item;

desktop->gr_point_type = draggable->point_type;

desktop->gr_point_i = draggable->point_i;

desktop->gr_fill_or_stroke = draggable->fill_or_stroke;

} else {

desktop->gr_item = NULL;

desktop->gr_point_type = 0;

desktop->gr_point_i = 0;

desktop->gr_fill_or_stroke = true;

}

deselect_all();

for (GList *l = this->draggers; l != NULL; l = l->next) {

delete ((GrDragger *) l->data);

}

g_list_free (this->draggers);

this->draggers = NULL;

this->selected = NULL;

for (GSList *l = this->lines; l != NULL; l = l->next) {

gtk_object_destroy( GTK_OBJECT (l->data));

}

g_slist_free (this->lines);

this->lines = NULL;

}

GrDraggable::GrDraggable (SPItem *item, guint point_type, guint point_i, bool fill_or_stroke)

{

this->item = item;

this->point_type = point_type;

this->point_i = point_i;

this->fill_or_stroke = fill_or_stroke;

g_object_ref (G_OBJECT (this->item));

}

GrDraggable::~GrDraggable ()

{

g_object_unref (G_OBJECT (this->item));

}

SPObject *

GrDraggable::getServer ()

{

if (!item)

return NULL;

SPObject *server = NULL;

if (fill_or_stroke)

server = SP_OBJECT_STYLE_FILL_SERVER (item);

else

server = SP_OBJECT_STYLE_STROKE_SERVER (item);

return server;

}

static void

gr_knot_moved_handler(SPKnot *knot, NR::Point const *ppointer, guint state, gpointer data)

{

GrDragger *dragger = (GrDragger *) data;

GrDrag *drag = dragger->parent;

NR::Point p = *ppointer;

// FIXME: take from prefs

double snap_dist = SNAP_DIST / dragger->parent->desktop->current_zoom();

if (state & GDK_SHIFT_MASK) {

// with Shift; unsnap if we carry more than one draggable

if (dragger->draggables && dragger->draggables->next) {

// create a new dragger

GrDragger *dr_new = new GrDragger (dragger->parent, dragger->point, NULL);

dragger->parent->draggers = g_list_prepend (dragger->parent->draggers, dr_new);

// relink to it all but the first draggable in the list

for (GSList const* i = dragger->draggables->next; i != NULL; i = i->next) {

GrDraggable *draggable = (GrDraggable *) i->data;

dr_new->addDraggable (draggable);

}

dr_new->updateKnotShape();

g_slist_free (dragger->draggables->next);

dragger->draggables->next = NULL;

dragger->updateKnotShape();

dragger->updateTip();

}

} else if (!(state & GDK_CONTROL_MASK)) {

// without Shift or Ctrl; see if we need to snap to another dragger

for (GList *di = dragger->parent->draggers; di != NULL; di = di->next) {

GrDragger *d_new = (GrDragger *) di->data;

if (dragger->mayMerge(d_new) && NR::L2 (d_new->point - p) < snap_dist) {

// Merge draggers:

for (GSList const* i = dragger->draggables; i != NULL; i = i->next) { // for all draggables of dragger

GrDraggable *draggable = (GrDraggable *) i->data;

// copy draggable to d_new:

GrDraggable *da_new = new GrDraggable (draggable->item, draggable->point_type, draggable->point_i, draggable->fill_or_stroke);

d_new->addDraggable (da_new);

}

// unlink and delete this dragger

dragger->parent->draggers = g_list_remove (dragger->parent->draggers, dragger);

delete dragger;

// update the new merged dragger

d_new->fireDraggables(true, false, true);

d_new->parent->updateLines();

d_new->parent->setSelected (d_new);

d_new->updateKnotShape ();

d_new->updateTip ();

d_new->updateDependencies(true);

sp_document_done (sp_desktop_document (d_new->parent->desktop), SP_VERB_CONTEXT_GRADIENT,

_("Merge gradient handles"));

return;

}

}

}

if (!((state & GDK_SHIFT_MASK) || ((state & GDK_CONTROL_MASK) && (state & GDK_MOD1_MASK)))) {

// Try snapping to the grid or guides

SPDesktop *desktop = dragger->parent->desktop;

SnapManager &m = desktop->namedview->snap_manager;

m.setup(desktop);

Inkscape::SnappedPoint s = m.freeSnap(Inkscape::Snapper::SNAPPOINT_NODE, to_2geom(p));

if (s.getSnapped()) {

p = s.getPoint();

sp_knot_moveto (knot, p);

} else {

bool was_snapped = false;

double dist = NR_HUGE;

// No snapping so far, let's see if we need to snap to any of the levels

for (guint i = 0; i < dragger->parent->hor_levels.size(); i++) {

dist = fabs(p[NR::Y] - dragger->parent->hor_levels[i]);

if (dist < snap_dist) {

p[NR::Y] = dragger->parent->hor_levels[i];

s = Inkscape::SnappedPoint(p, Inkscape::SNAPTARGET_GRADIENT, dist, snap_dist, false, false);

was_snapped = true;

sp_knot_moveto (knot, p);

}

}

for (guint i = 0; i < dragger->parent->vert_levels.size(); i++) {

dist = fabs(p[NR::X] - dragger->parent->vert_levels[i]);

if (dist < snap_dist) {

p[NR::X] = dragger->parent->vert_levels[i];

s = Inkscape::SnappedPoint(p, Inkscape::SNAPTARGET_GRADIENT, dist, snap_dist, false, false);

was_snapped = true;

sp_knot_moveto (knot, p);

}

}

if (was_snapped) {

desktop->snapindicator->set_new_snappoint(s);

}

}

}

if (state & GDK_CONTROL_MASK) {

unsigned snaps = abs(prefs_get_int_attribute("options.rotationsnapsperpi", "value", 12));

/* 0 means no snapping. */

// This list will store snap vectors from all draggables of dragger

GSList *snap_vectors = NULL;

for (GSList const* i = dragger->draggables; i != NULL; i = i->next) {

GrDraggable *draggable = (GrDraggable *) i->data;

NR::Point *dr_snap = NULL;

if (draggable->point_type == POINT_LG_BEGIN || draggable->point_type == POINT_LG_END) {

for (GList *di = dragger->parent->draggers; di != NULL; di = di->next) {

GrDragger *d_new = (GrDragger *) di->data;

if (d_new == dragger)

continue;

if (d_new->isA (draggable->item,

draggable->point_type == POINT_LG_BEGIN? POINT_LG_END : POINT_LG_BEGIN,

draggable->fill_or_stroke)) {

// found the other end of the linear gradient;

if (state & GDK_SHIFT_MASK) {

// moving linear around center

NR::Point center = NR::Point (0.5*(d_new->point + dragger->point));

dr_snap = &center;

} else {

// moving linear around the other end

dr_snap = &d_new->point;

}

}

}

} else if (draggable->point_type == POINT_RG_R1 || draggable->point_type == POINT_RG_R2 || draggable->point_type == POINT_RG_FOCUS) {

for (GList *di = dragger->parent->draggers; di != NULL; di = di->next) {

GrDragger *d_new = (GrDragger *) di->data;

if (d_new == dragger)

continue;

if (d_new->isA (draggable->item,

POINT_RG_CENTER,

draggable->fill_or_stroke)) {

// found the center of the radial gradient;

dr_snap = &(d_new->point);

}

}

} else if (draggable->point_type == POINT_RG_CENTER) {

// radial center snaps to hor/vert relative to its original position

dr_snap = &(dragger->point_original);

}

NR::Point *snap_vector = NULL;

if (dr_snap) {

if (state & GDK_MOD1_MASK) {

// with Alt, snap to the original angle and its perpendiculars

snap_vector = get_snap_vector (p, *dr_snap, M_PI/2, NR::atan2 (dragger->point_original - *dr_snap));

} else {

// with Ctrl, snap to M_PI/snaps

snap_vector = get_snap_vector (p, *dr_snap, M_PI/snaps, 0);

}

}

if (snap_vector) {

snap_vectors = g_slist_prepend (snap_vectors, snap_vector);

}

}

// Move by the smallest of snap vectors:

NR::Point move(9999, 9999);

for (GSList const *i = snap_vectors; i != NULL; i = i->next) {

NR::Point *snap_vector = (NR::Point *) i->data;

if (NR::L2(*snap_vector) < NR::L2(move))

move = *snap_vector;

}

if (move[NR::X] < 9999) {

p += move;

sp_knot_moveto (knot, p);

}

g_slist_free(snap_vectors);

}

drag->keep_selection = (bool) g_list_find(drag->selected, dragger);

bool scale_radial = (state & GDK_CONTROL_MASK) && (state & GDK_SHIFT_MASK);

if (drag->keep_selection) {

NR::Point diff = p - dragger->point;

drag->selected_move_nowrite (diff[NR::X], diff[NR::Y], scale_radial);

} else {

dragger->point = p;

dragger->fireDraggables (false, scale_radial);

dragger->updateDependencies(false);

}

}

static void

gr_midpoint_limits(GrDragger *dragger, SPObject *server, NR::Point *begin, NR::Point *end, NR::Point *low_lim, NR::Point *high_lim, GSList **moving)

{

GrDrag *drag = dragger->parent;

// a midpoint dragger can (logically) only contain one GrDraggable

GrDraggable *draggable = (GrDraggable *) dragger->draggables->data;

// get begin and end points between which dragging is allowed:

// the draglimits are between knot(lowest_i - 1) and knot(highest_i + 1)

*moving = g_slist_append(*moving, dragger);

guint lowest_i = draggable->point_i;

guint highest_i = draggable->point_i;

GrDragger *lowest_dragger = dragger;

GrDragger *highest_dragger = dragger;

if (dragger->isSelected()) {

GrDragger* d_add;

while ( true )

{

d_add = drag->getDraggerFor(draggable->item, draggable->point_type, lowest_i - 1, draggable->fill_or_stroke);

if ( d_add && g_list_find(drag->selected, d_add) ) {

lowest_i = lowest_i - 1;

*moving = g_slist_prepend(*moving, d_add);

lowest_dragger = d_add;

} else {

break;

}

}

while ( true )

{

d_add = drag->getDraggerFor(draggable->item, draggable->point_type, highest_i + 1, draggable->fill_or_stroke);

if ( d_add && g_list_find(drag->selected, d_add) ) {

highest_i = highest_i + 1;

*moving = g_slist_append(*moving, d_add);

highest_dragger = d_add;

} else {

break;

}

}

}

if ( SP_IS_LINEARGRADIENT(server) ) {

guint num = SP_LINEARGRADIENT(server)->vector.stops.size();

GrDragger *d_temp;

if (lowest_i == 1) {

d_temp = drag->getDraggerFor (draggable->item, POINT_LG_BEGIN, 0, draggable->fill_or_stroke);

} else {

d_temp = drag->getDraggerFor (draggable->item, POINT_LG_MID, lowest_i - 1, draggable->fill_or_stroke);

}

if (d_temp)

*begin = d_temp->point;

d_temp = drag->getDraggerFor (draggable->item, POINT_LG_MID, highest_i + 1, draggable->fill_or_stroke);

if (d_temp == NULL) {

d_temp = drag->getDraggerFor (draggable->item, POINT_LG_END, num-1, draggable->fill_or_stroke);

}

if (d_temp)

*end = d_temp->point;

} else if ( SP_IS_RADIALGRADIENT(server) ) {

guint num = SP_RADIALGRADIENT(server)->vector.stops.size();

GrDragger *d_temp;

if (lowest_i == 1) {

d_temp = drag->getDraggerFor (draggable->item, POINT_RG_CENTER, 0, draggable->fill_or_stroke);

} else {

d_temp = drag->getDraggerFor (draggable->item, draggable->point_type, lowest_i - 1, draggable->fill_or_stroke);

}

if (d_temp)

*begin = d_temp->point;

d_temp = drag->getDraggerFor (draggable->item, draggable->point_type, highest_i + 1, draggable->fill_or_stroke);

if (d_temp == NULL) {

d_temp = drag->getDraggerFor (draggable->item, (draggable->point_type==POINT_RG_MID1) ? POINT_RG_R1 : POINT_RG_R2, num-1, draggable->fill_or_stroke);

}

if (d_temp)

*end = d_temp->point;

}

*low_lim = dragger->point - (lowest_dragger->point - *begin);

*high_lim = dragger->point - (highest_dragger->point - *end);

}

static void

gr_knot_moved_midpoint_handler(SPKnot */*knot*/, NR::Point const *ppointer, guint state, gpointer data)

{

GrDragger *dragger = (GrDragger *) data;

GrDrag *drag = dragger->parent;

// a midpoint dragger can (logically) only contain one GrDraggable

GrDraggable *draggable = (GrDraggable *) dragger->draggables->data;

// FIXME: take from prefs

double snap_fraction = 0.1;

NR::Point p = *ppointer;

NR::Point begin(0,0), end(0,0);

NR::Point low_lim(0,0), high_lim(0,0);

SPObject *server = draggable->getServer();

GSList *moving = NULL;

gr_midpoint_limits(dragger, server, &begin, &end, &low_lim, &high_lim, &moving);

if (state & GDK_CONTROL_MASK) {

p = snap_vector_midpoint (p, low_lim, high_lim, snap_fraction);

} else {

p = snap_vector_midpoint (p, low_lim, high_lim, 0);

}

NR::Point displacement = p - dragger->point;

for (GSList const* i = moving; i != NULL; i = i->next) {

GrDragger *drg = (GrDragger*) i->data;

SPKnot *drgknot = drg->knot;

NR::Point this_move = displacement;

if (state & GDK_MOD1_MASK) {

// FIXME: unify all these profiles (here, in nodepath, in tweak) in one place

double alpha = 1.0;

if (NR::L2(drg->point - dragger->point) + NR::L2(drg->point - begin) - 1e-3 > NR::L2(dragger->point - begin)) { // drg is on the end side from dragger

double x = NR::L2(drg->point - dragger->point)/NR::L2(end - dragger->point);

this_move = (0.5 * cos (M_PI * (pow(x, alpha))) + 0.5) * this_move;

} else { // drg is on the begin side from dragger

double x = NR::L2(drg->point - dragger->point)/NR::L2(begin - dragger->point);

this_move = (0.5 * cos (M_PI * (pow(x, alpha))) + 0.5) * this_move;

}

}

drg->point += this_move;

sp_knot_moveto (drgknot, drg->point);

drg->fireDraggables (false);

drg->updateDependencies(false);

}

g_slist_free(moving);

drag->keep_selection = dragger->isSelected();

}

static void

gr_knot_grabbed_handler (SPKnot */*knot*/, unsigned int /*state*/, gpointer data)

{

GrDragger *dragger = (GrDragger *) data;

sp_canvas_force_full_redraw_after_interruptions(dragger->parent->desktop->canvas, 5);

}

static void

gr_knot_ungrabbed_handler (SPKnot *knot, unsigned int state, gpointer data)

{

GrDragger *dragger = (GrDragger *) data;

sp_canvas_end_forced_full_redraws(dragger->parent->desktop->canvas);

dragger->point_original = dragger->point = knot->pos;

if ((state & GDK_CONTROL_MASK) && (state & GDK_SHIFT_MASK)) {

dragger->fireDraggables (true, true);

} else {

dragger->fireDraggables (true);

}

for (GList *i = dragger->parent->selected; i != NULL; i = i->next) {

GrDragger *d = (GrDragger *) i->data;

if (d == dragger)

continue;

d->fireDraggables (true);

}

// make this dragger selected

if (!dragger->parent->keep_selection) {

dragger->parent->setSelected (dragger);

}

dragger->parent->keep_selection = false;

dragger->updateDependencies(true);

// we did an undoable action

sp_document_done (sp_desktop_document (dragger->parent->desktop), SP_VERB_CONTEXT_GRADIENT,

_("Move gradient handle"));

}

static void

gr_knot_clicked_handler(SPKnot */*knot*/, guint state, gpointer data)

{

GrDragger *dragger = (GrDragger *) data;

GrDraggable *draggable = (GrDraggable *) dragger->draggables->data;

if (!draggable) return;

if ( (state & GDK_CONTROL_MASK) && (state & GDK_MOD1_MASK ) ) {

// delete this knot from vector

SPGradient *gradient = sp_item_gradient (draggable->item, draggable->fill_or_stroke);

gradient = sp_gradient_get_vector (gradient, false);

if (gradient->vector.stops.size() > 2) { // 2 is the minimum

SPStop *stop = NULL;

switch (draggable->point_type) { // if we delete first or last stop, move the next/previous to the edge

case POINT_LG_BEGIN:

case POINT_RG_CENTER:

stop = sp_first_stop(gradient);

{

SPStop *next = sp_next_stop (stop);

if (next) {

next->offset = 0;

sp_repr_set_css_double (SP_OBJECT_REPR (next), "offset", 0);

}

}

break;

case POINT_LG_END:

case POINT_RG_R1:

case POINT_RG_R2:

stop = sp_last_stop(gradient);

{

SPStop *prev = sp_prev_stop (stop, gradient);

if (prev) {

prev->offset = 1;

sp_repr_set_css_double (SP_OBJECT_REPR (prev), "offset", 1);

}

}

break;

case POINT_LG_MID:

case POINT_RG_MID1:

case POINT_RG_MID2:

stop = sp_get_stop_i(gradient, draggable->point_i);

break;

}

SP_OBJECT_REPR(gradient)->removeChild(SP_OBJECT_REPR(stop));

sp_document_done (SP_OBJECT_DOCUMENT (gradient), SP_VERB_CONTEXT_GRADIENT,

_("Delete gradient stop"));

}

} else {

// select the dragger

dragger->point_original = dragger->point;

if ( state & GDK_SHIFT_MASK ) {

dragger->parent->setSelected (dragger, true, false);

} else {

dragger->parent->setSelected (dragger);

}

}

}

static void

gr_knot_doubleclicked_handler (SPKnot */*knot*/, guint /*state*/, gpointer data)

{

GrDragger *dragger = (GrDragger *) data;

dragger->point_original = dragger->point;

if (dragger->draggables == NULL)

return;

GrDraggable *draggable = (GrDraggable *) dragger->draggables->data;

sp_item_gradient_edit_stop (draggable->item, draggable->point_type, draggable->point_i, draggable->fill_or_stroke);

}

GrDragger::fireDraggables (bool write_repr, bool scale_radial, bool merging_focus)

{

for (GSList const* i = this->draggables; i != NULL; i = i->next) {

GrDraggable *draggable = (GrDraggable *) i->data;

// set local_change flag so that selection_changed callback does not regenerate draggers

this->parent->local_change = true;

// change gradient, optionally writing to repr; prevent focus from moving if it's snapped

// to the center, unless it's the first update upon merge when we must snap it to the point

if (merging_focus ||

!(draggable->point_type == POINT_RG_FOCUS && this->isA(draggable->item, POINT_RG_CENTER, draggable->point_i, draggable->fill_or_stroke)))

{

sp_item_gradient_set_coords (draggable->item, draggable->point_type, draggable->point_i, this->point, draggable->fill_or_stroke, write_repr, scale_radial);

}

}

}

GrDragger::isA (gint point_type)

{

for (GSList const* i = this->draggables; i != NULL; i = i->next) {

GrDraggable *draggable = (GrDraggable *) i->data;

if (draggable->point_type == point_type) {

return true;

}

}

return false;

}

GrDragger::isA (SPItem *item, gint point_type, gint point_i, bool fill_or_stroke)

{

for (GSList const* i = this->draggables; i != NULL; i = i->next) {

GrDraggable *draggable = (GrDraggable *) i->data;

if ( (draggable->point_type == point_type) && (draggable->point_i == point_i) && (draggable->item == item) && (draggable->fill_or_stroke == fill_or_stroke) ) {

return true;

}

}

return false;

}

GrDragger::isA (SPItem *item, gint point_type, bool fill_or_stroke)

{

for (GSList const* i = this->draggables; i != NULL; i = i->next) {

GrDraggable *draggable = (GrDraggable *) i->data;

if ( (draggable->point_type == point_type) && (draggable->item == item) && (draggable->fill_or_stroke == fill_or_stroke) ) {

return true;

}

}

return false;

}

GrDraggable::mayMerge (GrDraggable *da2)

{

if ((this->item == da2->item) && (this->fill_or_stroke == da2->fill_or_stroke)) {

// we must not merge the points of the same gradient!

if (!((this->point_type == POINT_RG_FOCUS && da2->point_type == POINT_RG_CENTER) ||

(this->point_type == POINT_RG_CENTER && da2->point_type == POINT_RG_FOCUS))) {

// except that we can snap center and focus together

return false;

}

}

// disable merging of midpoints.

if ( (this->point_type == POINT_LG_MID) || (da2->point_type == POINT_LG_MID)

|| (this->point_type == POINT_RG_MID1) || (da2->point_type == POINT_RG_MID1)

|| (this->point_type == POINT_RG_MID2) || (da2->point_type == POINT_RG_MID2) )

return false;

return true;

}

GrDragger::mayMerge (GrDragger *other)

{

if (this == other)

return false;

for (GSList const* i = this->draggables; i != NULL; i = i->next) { // for all draggables of this

GrDraggable *da1 = (GrDraggable *) i->data;

for (GSList const* j = other->draggables; j != NULL; j = j->next) { // for all draggables of other

GrDraggable *da2 = (GrDraggable *) j->data;

if (!da1->mayMerge(da2))

return false;

}

}

return true;

}

GrDragger::mayMerge (GrDraggable *da2)

{

for (GSList const* i = this->draggables; i != NULL; i = i->next) { // for all draggables of this

GrDraggable *da1 = (GrDraggable *) i->data;

if (!da1->mayMerge(da2))

return false;

}

return true;

}

GrDragger::updateTip ()

{

if (this->knot && this->knot->tip) {

g_free (this->knot->tip);

this->knot->tip = NULL;

}

if (g_slist_length (this->draggables) == 1) {

GrDraggable *draggable = (GrDraggable *) this->draggables->data;

char *item_desc = sp_item_description(draggable->item);

switch (draggable->point_type) {

case POINT_LG_MID:

case POINT_RG_MID1:

case POINT_RG_MID2:

this->knot->tip = g_strdup_printf (_("%s %d for: %s%s; drag with <b>Ctrl</b> to snap offset; click with <b>Ctrl+Alt</b> to delete stop"),

_(gr_knot_descr[draggable->point_type]),

draggable->point_i,

item_desc,

draggable->fill_or_stroke == false ? _(" (stroke)") : "");

break;

default:

this->knot->tip = g_strdup_printf (_("%s for: %s%s; drag with <b>Ctrl</b> to snap angle, with <b>Ctrl+Alt</b> to preserve angle, with <b>Ctrl+Shift</b> to scale around center"),

_(gr_knot_descr[draggable->point_type]),

item_desc,

draggable->fill_or_stroke == false ? _(" (stroke)") : "");

break;

}

g_free(item_desc);

} else if (g_slist_length (draggables) == 2 && isA (POINT_RG_CENTER) && isA (POINT_RG_FOCUS)) {

this->knot->tip = g_strdup_printf (_("Radial gradient <b>center</b> and <b>focus</b>; drag with <b>Shift</b> to separate focus"));

} else {

int length = g_slist_length (this->draggables);

this->knot->tip = g_strdup_printf (ngettext("Gradient point shared by <b>%d</b> gradient; drag with <b>Shift</b> to separate",

"Gradient point shared by <b>%d</b> gradients; drag with <b>Shift</b> to separate",

length),

length);

}

}

GrDragger::updateKnotShape ()

{

if (!draggables)

return;

GrDraggable *last = (GrDraggable *) g_slist_last(draggables)->data;

g_object_set (G_OBJECT (this->knot->item), "shape", gr_knot_shapes[last->point_type], NULL);

}

GrDragger::addDraggable (GrDraggable *draggable)

{

this->draggables = g_slist_prepend (this->draggables, draggable);

this->updateTip();

}

GrDragger::moveThisToDraggable (SPItem *item, gint point_type, gint point_i, bool fill_or_stroke, bool write_repr)

{

this->point = sp_item_gradient_get_coords (item, point_type, point_i, fill_or_stroke);

this->point_original = this->point;

sp_knot_moveto (this->knot, this->point);

for (GSList const* i = this->draggables; i != NULL; i = i->next) {

GrDraggable *da = (GrDraggable *) i->data;

if ( (da->item == item) &&

(point_type == -1 || da->point_type == point_type) &&

(point_i == -1 || da->point_i == point_i) &&

(da->fill_or_stroke == fill_or_stroke) ) {

continue;

}

sp_item_gradient_set_coords (da->item, da->point_type, da->point_i, this->point, da->fill_or_stroke, write_repr, false);

}

// FIXME: here we should also call this->updateDependencies(write_repr); to propagate updating, but how to prevent loops?

}

GrDragger::updateMidstopDependencies (GrDraggable *draggable, bool write_repr) {

SPObject *server = draggable->getServer();

if (!server)

return;

guint num = SP_GRADIENT(server)->vector.stops.size();

if (num <= 2) return;

if ( SP_IS_LINEARGRADIENT(server) ) {

for ( guint i = 1; i < num - 1; i++ ) {

this->moveOtherToDraggable (draggable->item, POINT_LG_MID, i, draggable->fill_or_stroke, write_repr);

}

} else if ( SP_IS_RADIALGRADIENT(server) ) {

for ( guint i = 1; i < num - 1; i++ ) {

this->moveOtherToDraggable (draggable->item, POINT_RG_MID1, i, draggable->fill_or_stroke, write_repr);

this->moveOtherToDraggable (draggable->item, POINT_RG_MID2, i, draggable->fill_or_stroke, write_repr);

}

}

}

GrDragger::updateDependencies (bool write_repr)

{

for (GSList const* i = this->draggables; i != NULL; i = i->next) {

GrDraggable *draggable = (GrDraggable *) i->data;

switch (draggable->point_type) {

case POINT_LG_BEGIN:

{

// the end point is dependent only when dragging with ctrl+shift

this->moveOtherToDraggable (draggable->item, POINT_LG_END, -1, draggable->fill_or_stroke, write_repr);

this->updateMidstopDependencies (draggable, write_repr);

}

break;

case POINT_LG_END:

{

// the begin point is dependent only when dragging with ctrl+shift

this->moveOtherToDraggable (draggable->item, POINT_LG_BEGIN, 0, draggable->fill_or_stroke, write_repr);

this->updateMidstopDependencies (draggable, write_repr);

}

break;

case POINT_LG_MID:

// no other nodes depend on mid points.

break;

case POINT_RG_R2:

this->moveOtherToDraggable (draggable->item, POINT_RG_R1, -1, draggable->fill_or_stroke, write_repr);

this->moveOtherToDraggable (draggable->item, POINT_RG_FOCUS, -1, draggable->fill_or_stroke, write_repr);

this->updateMidstopDependencies (draggable, write_repr);

break;

case POINT_RG_R1:

this->moveOtherToDraggable (draggable->item, POINT_RG_R2, -1, draggable->fill_or_stroke, write_repr);

this->moveOtherToDraggable (draggable->item, POINT_RG_FOCUS, -1, draggable->fill_or_stroke, write_repr);

this->updateMidstopDependencies (draggable, write_repr);

break;

case POINT_RG_CENTER:

this->moveOtherToDraggable (draggable->item, POINT_RG_R1, -1, draggable->fill_or_stroke, write_repr);

this->moveOtherToDraggable (draggable->item, POINT_RG_R2, -1, draggable->fill_or_stroke, write_repr);

this->moveOtherToDraggable (draggable->item, POINT_RG_FOCUS, -1, draggable->fill_or_stroke, write_repr);

this->updateMidstopDependencies (draggable, write_repr);

break;

case POINT_RG_FOCUS:

// nothing can depend on that

break;

case POINT_RG_MID1:

this->moveOtherToDraggable (draggable->item, POINT_RG_MID2, draggable->point_i, draggable->fill_or_stroke, write_repr);

break;

case POINT_RG_MID2:

this->moveOtherToDraggable (draggable->item, POINT_RG_MID1, draggable->point_i, draggable->fill_or_stroke, write_repr);

break;

default:

break;

}

}

}

GrDragger::GrDragger (GrDrag *parent, NR::Point p, GrDraggable *draggable)

{

this->draggables = NULL;

this->parent = parent;

this->point = p;

this->point_original = p;

// create the knot

this->knot = sp_knot_new (parent->desktop, NULL);

this->knot->setMode(SP_KNOT_MODE_XOR);

this->knot->setFill(GR_KNOT_COLOR_NORMAL, GR_KNOT_COLOR_MOUSEOVER, GR_KNOT_COLOR_MOUSEOVER);

this->knot->setStroke(0x000000ff, 0x000000ff, 0x000000ff);

sp_knot_update_ctrl(this->knot);

// move knot to the given point

sp_knot_set_position (this->knot, p, SP_KNOT_STATE_NORMAL);

sp_knot_show (this->knot);

// connect knot's signals

if ( (draggable) // it can be NULL if a node in unsnapped (eg. focus point unsnapped from center)

// luckily, midstops never snap to other nodes so are never unsnapped...

&& ( (draggable->point_type == POINT_LG_MID)

|| (draggable->point_type == POINT_RG_MID1)

|| (draggable->point_type == POINT_RG_MID2) ) )

{

this->handler_id = g_signal_connect (G_OBJECT (this->knot), "moved", G_CALLBACK (gr_knot_moved_midpoint_handler), this);

} else {

this->handler_id = g_signal_connect (G_OBJECT (this->knot), "moved", G_CALLBACK (gr_knot_moved_handler), this);

}

g_signal_connect (G_OBJECT (this->knot), "clicked", G_CALLBACK (gr_knot_clicked_handler), this);

g_signal_connect (G_OBJECT (this->knot), "doubleclicked", G_CALLBACK (gr_knot_doubleclicked_handler), this);

g_signal_connect (G_OBJECT (this->knot), "grabbed", G_CALLBACK (gr_knot_grabbed_handler), this);

g_signal_connect (G_OBJECT (this->knot), "ungrabbed", G_CALLBACK (gr_knot_ungrabbed_handler), this);

// add the initial draggable

if (draggable)

this->addDraggable (draggable);

updateKnotShape();

}

GrDragger::~GrDragger ()

{

// unselect if it was selected

this->parent->setDeselected(this);

// disconnect signals

g_signal_handlers_disconnect_by_func(G_OBJECT(this->knot), (gpointer) G_CALLBACK (gr_knot_moved_handler), this);

g_signal_handlers_disconnect_by_func(G_OBJECT(this->knot), (gpointer) G_CALLBACK (gr_knot_clicked_handler), this);

g_signal_handlers_disconnect_by_func(G_OBJECT(this->knot), (gpointer) G_CALLBACK (gr_knot_doubleclicked_handler), this);

g_signal_handlers_disconnect_by_func(G_OBJECT(this->knot), (gpointer) G_CALLBACK (gr_knot_grabbed_handler), this);

g_signal_handlers_disconnect_by_func(G_OBJECT(this->knot), (gpointer) G_CALLBACK (gr_knot_ungrabbed_handler), this);

/* unref should call destroy */

g_object_unref (G_OBJECT (this->knot));

// delete all draggables

for (GSList const* i = this->draggables; i != NULL; i = i->next) {

delete ((GrDraggable *) i->data);

}

g_slist_free (this->draggables);

this->draggables = NULL;

}

GrDragger *

GrDrag::getDraggerFor (SPItem *item, gint point_type, gint point_i, bool fill_or_stroke)

{

for (GList const* i = this->draggers; i != NULL; i = i->next) {

GrDragger *dragger = (GrDragger *) i->data;

for (GSList const* j = dragger->draggables; j != NULL; j = j->next) {

GrDraggable *da2 = (GrDraggable *) j->data;

if ( (da2->item == item) &&

(point_type == -1 || da2->point_type == point_type) && // -1 means this does not matter

(point_i == -1 || da2->point_i == point_i) && // -1 means this does not matter

(da2->fill_or_stroke == fill_or_stroke)) {

return (dragger);

}

}

}

return NULL;

}

GrDragger::moveOtherToDraggable (SPItem *item, gint point_type, gint point_i, bool fill_or_stroke, bool write_repr)

{

GrDragger *d = this->parent->getDraggerFor (item, point_type, point_i, fill_or_stroke);

if (d && d != this) {

d->moveThisToDraggable (item, point_type, point_i, fill_or_stroke, write_repr);

}

}

GrDragger::select()

{

this->knot->fill [SP_KNOT_STATE_NORMAL] = GR_KNOT_COLOR_SELECTED;

g_object_set (G_OBJECT (this->knot->item), "fill_color", GR_KNOT_COLOR_SELECTED, NULL);

}

GrDragger::deselect()

{

this->knot->fill [SP_KNOT_STATE_NORMAL] = GR_KNOT_COLOR_NORMAL;

g_object_set (G_OBJECT (this->knot->item), "fill_color", GR_KNOT_COLOR_NORMAL, NULL);

}

GrDragger::isSelected()

{

return g_list_find (parent->selected, this);

}

GrDrag::deselect_all()

{

while (selected) {

( (GrDragger*) selected->data)->deselect();

selected = g_list_remove(selected, selected->data);

}

}

GrDrag::deselectAll()

{

deselect_all();

this->desktop->emitToolSubselectionChanged(NULL);

}

GrDrag::selectAll()

{

for (GList *l = this->draggers; l != NULL; l = l->next) {

GrDragger *d = ((GrDragger *) l->data);

setSelected (d, true, true);

}

}

GrDrag::selectByCoords(std::vector<NR::Point> coords)

{

for (GList *l = this->draggers; l != NULL; l = l->next) {

GrDragger *d = ((GrDragger *) l->data);

for (guint k = 0; k < coords.size(); k++) {

if (NR::L2 (d->point - coords[k]) < 1e-4) {

setSelected (d, true, true);

}

}

}

}

GrDrag::selectRect(Geom::Rect const &r)

{

for (GList *l = this->draggers; l != NULL; l = l->next) {

GrDragger *d = ((GrDragger *) l->data);

if (r.contains(d->point)) {

setSelected (d, true, true);

}

}

}

GrDrag::setSelected (GrDragger *dragger, bool add_to_selection, bool override)

{

GrDragger *seldragger = NULL;

if (add_to_selection) {

if (!dragger) return;

if (override) {

if (!g_list_find(selected, dragger)) {

selected = g_list_prepend(selected, dragger);

}

dragger->select();

seldragger = dragger;

} else { // toggle

if (g_list_find(selected, dragger)) {

selected = g_list_remove(selected, dragger);

dragger->deselect();

if (selected) {

seldragger = (GrDragger*) selected->data; // select the dragger that is first in the list

}

} else {

selected = g_list_prepend(selected, dragger);

dragger->select();

seldragger = dragger;

}

}

} else {

deselect_all();

if (dragger) {

selected = g_list_prepend(selected, dragger);

dragger->select();

seldragger = dragger;

}

}

if (seldragger) {

this->desktop->emitToolSubselectionChanged((gpointer) seldragger);

}

}

GrDrag::setDeselected (GrDragger *dragger)

{

if (g_list_find(selected, dragger)) {

selected = g_list_remove(selected, dragger);

dragger->deselect();

}

this->desktop->emitToolSubselectionChanged((gpointer) (selected ? selected->data : NULL ));

}

GrDrag::addLine (SPItem *item, NR::Point p1, NR::Point p2, guint32 rgba)

{

SPCanvasItem *line = sp_canvas_item_new(sp_desktop_controls(this->desktop),

SP_TYPE_CTRLLINE, NULL);

SP_CTRLLINE(line)->item = item;

sp_ctrlline_set_coords(SP_CTRLLINE(line), p1, p2);

if (rgba != GR_LINE_COLOR_FILL) // fill is the default, so don't set color for it to speed up redraw

sp_ctrlline_set_rgba32 (SP_CTRLLINE(line), rgba);

sp_canvas_item_show (line);

this->lines = g_slist_append (this->lines, line);

}

GrDrag::addDragger (GrDraggable *draggable)

{

NR::Point p = sp_item_gradient_get_coords (draggable->item, draggable->point_type, draggable->point_i, draggable->fill_or_stroke);

for (GList *i = this->draggers; i != NULL; i = i->next) {

GrDragger *dragger = (GrDragger *) i->data;

if (dragger->mayMerge (draggable) && NR::L2 (dragger->point - p) < MERGE_DIST) {

// distance is small, merge this draggable into dragger, no need to create new dragger

dragger->addDraggable (draggable);

dragger->updateKnotShape();

return;

}

}

GrDragger *new_dragger = new GrDragger(this, p, draggable);

// fixme: draggers should be added AFTER the last one: this way tabbing through them will be from begin to end.

this->draggers = g_list_append (this->draggers, new_dragger);

}

GrDrag::addDraggersRadial (SPRadialGradient *rg, SPItem *item, bool fill_or_stroke)

{

addDragger (new GrDraggable (item, POINT_RG_CENTER, 0, fill_or_stroke));

guint num = rg->vector.stops.size();

if (num > 2) {

for ( guint i = 1; i < num - 1; i++ ) {

addDragger (new GrDraggable (item, POINT_RG_MID1, i, fill_or_stroke));

}

}

addDragger (new GrDraggable (item, POINT_RG_R1, num-1, fill_or_stroke));

if (num > 2) {

for ( guint i = 1; i < num - 1; i++ ) {

addDragger (new GrDraggable (item, POINT_RG_MID2, i, fill_or_stroke));

}

}

addDragger (new GrDraggable (item, POINT_RG_R2, num-1, fill_or_stroke));

addDragger (new GrDraggable (item, POINT_RG_FOCUS, 0, fill_or_stroke));

}

GrDrag::addDraggersLinear (SPLinearGradient *lg, SPItem *item, bool fill_or_stroke)

{

addDragger (new GrDraggable (item, POINT_LG_BEGIN, 0, fill_or_stroke));

guint num = lg->vector.stops.size();

if (num > 2) {

for ( guint i = 1; i < num - 1; i++ ) {

addDragger (new GrDraggable (item, POINT_LG_MID, i, fill_or_stroke));

}

}

addDragger (new GrDraggable (item, POINT_LG_END, num-1, fill_or_stroke));

}

GrDrag::grabKnot (GrDragger *dragger, gint x, gint y, guint32 etime)

{

if (dragger) {

sp_knot_start_dragging (dragger->knot, dragger->point, x, y, etime);

}

}

GrDrag::grabKnot (SPItem *item, gint point_type, gint point_i, bool fill_or_stroke, gint x, gint y, guint32 etime)

{

GrDragger *dragger = getDraggerFor (item, point_type, point_i, fill_or_stroke);

if (dragger) {

sp_knot_start_dragging (dragger->knot, dragger->point, x, y, etime);

}

}

GrDrag::updateDraggers ()

{

while (selected) {

selected = g_list_remove(selected, selected->data);

}

// delete old draggers

for (GList const* i = this->draggers; i != NULL; i = i->next) {

delete ((GrDragger *) i->data);

}

g_list_free (this->draggers);

this->draggers = NULL;

g_return_if_fail (this->selection != NULL);

for (GSList const* i = this->selection->itemList(); i != NULL; i = i->next) {

SPItem *item = SP_ITEM(i->data);

SPStyle *style = SP_OBJECT_STYLE (item);

if (style && (style->fill.isPaintserver())) {

SPObject *server = SP_OBJECT_STYLE_FILL_SERVER (item);

if (SP_IS_LINEARGRADIENT (server)) {

addDraggersLinear (SP_LINEARGRADIENT (server), item, true);

} else if (SP_IS_RADIALGRADIENT (server)) {

addDraggersRadial (SP_RADIALGRADIENT (server), item, true);

}

}

if (style && (style->stroke.isPaintserver())) {

SPObject *server = SP_OBJECT_STYLE_STROKE_SERVER (item);

if (SP_IS_LINEARGRADIENT (server)) {

addDraggersLinear (SP_LINEARGRADIENT (server), item, false);

} else if (SP_IS_RADIALGRADIENT (server)) {

addDraggersRadial (SP_RADIALGRADIENT (server), item, false);

}

}

}

}

GrDrag::updateLines ()

{

// delete old lines

for (GSList const *i = this->lines; i != NULL; i = i->next) {

gtk_object_destroy( GTK_OBJECT (i->data));

}

g_slist_free (this->lines);

this->lines = NULL;

g_return_if_fail (this->selection != NULL);

for (GSList const* i = this->selection->itemList(); i != NULL; i = i->next) {

SPItem *item = SP_ITEM(i->data);

SPStyle *style = SP_OBJECT_STYLE (item);

if (style && (style->fill.isPaintserver())) {

SPObject *server = SP_OBJECT_STYLE_FILL_SERVER (item);

if (SP_IS_LINEARGRADIENT (server)) {

this->addLine (item, sp_item_gradient_get_coords (item, POINT_LG_BEGIN, 0, true), sp_item_gradient_get_coords (item, POINT_LG_END, 0, true), GR_LINE_COLOR_FILL);

} else if (SP_IS_RADIALGRADIENT (server)) {

NR::Point center = sp_item_gradient_get_coords (item, POINT_RG_CENTER, 0, true);

this->addLine (item, center, sp_item_gradient_get_coords (item, POINT_RG_R1, 0, true), GR_LINE_COLOR_FILL);

this->addLine (item, center, sp_item_gradient_get_coords (item, POINT_RG_R2, 0, true), GR_LINE_COLOR_FILL);

}

}

if (style && (style->stroke.isPaintserver())) {

SPObject *server = SP_OBJECT_STYLE_STROKE_SERVER (item);

if (SP_IS_LINEARGRADIENT (server)) {

this->addLine (item, sp_item_gradient_get_coords (item, POINT_LG_BEGIN, 0, false), sp_item_gradient_get_coords (item, POINT_LG_END, 0, false), GR_LINE_COLOR_STROKE);

} else if (SP_IS_RADIALGRADIENT (server)) {

NR::Point center = sp_item_gradient_get_coords (item, POINT_RG_CENTER, 0, false);

this->addLine (item, center, sp_item_gradient_get_coords (item, POINT_RG_R1, 0, false), GR_LINE_COLOR_STROKE);

this->addLine (item, center, sp_item_gradient_get_coords (item, POINT_RG_R2, 0, false), GR_LINE_COLOR_STROKE);

}

}

}

}

GrDrag::updateLevels ()

{

hor_levels.clear();

vert_levels.clear();

g_return_if_fail (this->selection != NULL);

for (GSList const* i = this->selection->itemList(); i != NULL; i = i->next) {

SPItem *item = SP_ITEM(i->data);

boost::optional<Geom::Rect> rect = sp_item_bbox_desktop (item);

if (rect) {

// Remember the edges of the bbox and the center axis

hor_levels.push_back(rect->min()[Geom::Y]);

hor_levels.push_back(rect->max()[Geom::Y]);

hor_levels.push_back(0.5 * (rect->min()[Geom::Y] + rect->max()[Geom::Y]));

vert_levels.push_back(rect->min()[Geom::X]);

vert_levels.push_back(rect->max()[Geom::X]);

vert_levels.push_back(0.5 * (rect->min()[Geom::X] + rect->max()[Geom::X]));

}

}

}

GrDrag::selected_reverse_vector ()

{

if (selected == NULL)

return;

for (GSList const* i = ( (GrDragger*) selected->data )->draggables; i != NULL; i = i->next) {

GrDraggable *draggable = (GrDraggable *) i->data;

sp_item_gradient_reverse_vector (draggable->item, draggable->fill_or_stroke);

}

}

GrDrag::selected_move_nowrite (double x, double y, bool scale_radial)

{

selected_move (x, y, false, scale_radial);

}

GrDrag::selected_move (double x, double y, bool write_repr, bool scale_radial)

{

if (selected == NULL)

return;

bool did = false;

for (GList *i = selected; i != NULL; i = i->next) {

GrDragger *d = (GrDragger *) i->data;

if (!d->isA(POINT_LG_MID) && !d->isA(POINT_RG_MID1) && !d->isA(POINT_RG_MID2)) {

// if this is an endpoint,

// Moving an rg center moves its focus and radii as well.

// therefore, if this is a focus or radius and if selection

// contains the center as well, do not move this one

if (d->isA(POINT_RG_R1) || d->isA(POINT_RG_R2) ||

(d->isA(POINT_RG_FOCUS) && !d->isA(POINT_RG_CENTER))) {

bool skip_radius_with_center = false;

for (GList *di = selected; di != NULL; di = di->next) {

GrDragger *d_new = (GrDragger *) di->data;

if (d_new->isA (((GrDraggable *) d->draggables->data)->item,

POINT_RG_CENTER,

0,

((GrDraggable *) d->draggables->data)->fill_or_stroke)) {

// FIXME: here we take into account only the first draggable!

skip_radius_with_center = true;

}

}

if (skip_radius_with_center)

continue;

}

did = true;

d->point += NR::Point (x, y);

d->point_original = d->point;

sp_knot_moveto (d->knot, d->point);

d->fireDraggables (write_repr, scale_radial);

d->updateDependencies(write_repr);

}

}

if (write_repr && did) {

// we did an undoable action

sp_document_maybe_done (sp_desktop_document (desktop), "grmoveh", SP_VERB_CONTEXT_GRADIENT,

_("Move gradient handle(s)"));

return;

}

if (!did) { // none of the end draggers are selected, so let's try to move the mids

GrDragger *dragger = (GrDragger *) selected->data;

// a midpoint dragger can (logically) only contain one GrDraggable

GrDraggable *draggable = (GrDraggable *) dragger->draggables->data;

NR::Point begin(0,0), end(0,0);

NR::Point low_lim(0,0), high_lim(0,0);

SPObject *server = draggable->getServer();

GSList *moving = NULL;

gr_midpoint_limits(dragger, server, &begin, &end, &low_lim, &high_lim, &moving);

NR::Point p(x, y);

p = snap_vector_midpoint (dragger->point + p, low_lim, high_lim, 0);

NR::Point displacement = p - dragger->point;

for (GSList const* i = moving; i != NULL; i = i->next) {

GrDragger *drg = (GrDragger*) i->data;

SPKnot *drgknot = drg->knot;

drg->point += displacement;

sp_knot_moveto (drgknot, drg->point);

drg->fireDraggables (true);

drg->updateDependencies(true);

did = true;

}

g_slist_free(moving);

if (write_repr && did) {

// we did an undoable action

sp_document_maybe_done (sp_desktop_document (desktop), "grmovem", SP_VERB_CONTEXT_GRADIENT,

_("Move gradient mid stop(s)"));

}

}

}

GrDrag::selected_move_screen (double x, double y)

{

gdouble zoom = desktop->current_zoom();

gdouble zx = x / zoom;

gdouble zy = y / zoom;

selected_move (zx, zy);

}

GrDragger *

GrDrag::select_next ()

{

GrDragger *d = NULL;

if (selected == NULL || g_list_find(draggers, selected->data)->next == NULL) {

if (draggers)

d = (GrDragger *) draggers->data;

} else {

d = (GrDragger *) g_list_find(draggers, selected->data)->next->data;

}

if (d)

setSelected (d);

return d;

}

GrDragger *

GrDrag::select_prev ()

{

GrDragger *d = NULL;

if (selected == NULL || g_list_find(draggers, selected->data)->prev == NULL) {

if (draggers)

d = (GrDragger *) g_list_last (draggers)->data;

} else {

d = (GrDragger *) g_list_find(draggers, selected->data)->prev->data;

}

if (d)

setSelected (d);

return d;

}

GrDrag::deleteSelected (bool just_one)

{

if (!selected) return;

SPDocument *document = false;

struct StructStopInfo {

SPStop * spstop;

GrDraggable * draggable;

SPGradient * gradient;

SPGradient * vector;

};

GSList *midstoplist = NULL; // list of stops that must be deleted (will be deleted first)

GSList *endstoplist = NULL; // list of stops that must be deleted

while (selected) {

GrDragger *dragger = (GrDragger*) selected->data;

for (GSList * drgble = dragger->draggables; drgble != NULL; drgble = drgble->next) {

GrDraggable *draggable = (GrDraggable*) drgble->data;

SPGradient *gradient = sp_item_gradient (draggable->item, draggable->fill_or_stroke);

SPGradient *vector = sp_gradient_get_forked_vector_if_necessary (gradient, false);

switch (draggable->point_type) {

case POINT_LG_MID:

case POINT_RG_MID1:

case POINT_RG_MID2:

{

SPStop *stop = sp_get_stop_i(vector, draggable->point_i);

// check if already present in list. (e.g. when both RG_MID1 and RG_MID2 were selected)

bool present = false;

for (GSList const * l = midstoplist; l != NULL; l = l->next) {

if ( (SPStop*)l->data == stop ) {

present = true;

break; // no need to search further.

}

}

if (!present)

midstoplist = g_slist_append(midstoplist, stop);

}

break;

case POINT_LG_BEGIN:

case POINT_LG_END:

case POINT_RG_CENTER:

case POINT_RG_R1:

case POINT_RG_R2:

{

SPStop *stop = NULL;

if ( (draggable->point_type == POINT_LG_BEGIN) || (draggable->point_type == POINT_RG_CENTER) ) {

stop = sp_first_stop(vector);

} else {

stop = sp_last_stop(vector);

}

if (stop) {

StructStopInfo *stopinfo = new StructStopInfo;

stopinfo->spstop = stop;

stopinfo->draggable = draggable;

stopinfo->gradient = gradient;

stopinfo->vector = vector;

// check if already present in list. (e.g. when both R1 and R2 were selected)

bool present = false;

for (GSList const * l = endstoplist; l != NULL; l = l->next) {

if ( ((StructStopInfo*)l->data)->spstop == stopinfo->spstop ) {

present = true;

break; // no need to search further.

}

}

if (!present)

endstoplist = g_slist_append(endstoplist, stopinfo);

}

}

break;

default:

break;

}

}

selected = g_list_remove(selected, dragger);

if ( just_one ) break; // iterate once if just_one is set.

}

while (midstoplist) {

SPStop *stop = (SPStop*) midstoplist->data;

document = SP_OBJECT_DOCUMENT (stop);

Inkscape::XML::Node * parent = SP_OBJECT_REPR(stop)->parent();

parent->removeChild(SP_OBJECT_REPR(stop));

midstoplist = g_slist_remove(midstoplist, stop);

}

while (endstoplist) {

StructStopInfo *stopinfo = (StructStopInfo*) endstoplist->data;

document = SP_OBJECT_DOCUMENT (stopinfo->spstop);

// 2 is the minimum, cannot delete more than that without deleting the whole vector

// cannot use vector->vector.stops.size() because the vector might be invalidated by deletion of a midstop

// manually count the children, don't know if there already exists a function for this...

int len = 0;

for ( SPObject *child = sp_object_first_child(stopinfo->vector) ;

child != NULL ;

child = SP_OBJECT_NEXT(child) )

{

if ( SP_IS_STOP(child) ) len ++;

}

if (len > 2)

{

switch (stopinfo->draggable->point_type) {

case POINT_LG_BEGIN:

{

SP_OBJECT_REPR(stopinfo->vector)->removeChild(SP_OBJECT_REPR(stopinfo->spstop));

SPLinearGradient *lg = SP_LINEARGRADIENT(stopinfo->gradient);

NR::Point oldbegin = NR::Point (lg->x1.computed, lg->y1.computed);

NR::Point end = NR::Point (lg->x2.computed, lg->y2.computed);

SPStop *stop = sp_first_stop(stopinfo->vector);

gdouble offset = stop->offset;

NR::Point newbegin = oldbegin + offset * (end - oldbegin);

lg->x1.computed = newbegin[NR::X];

lg->y1.computed = newbegin[NR::Y];

Inkscape::XML::Node *repr = SP_OBJECT_REPR(stopinfo->gradient);

sp_repr_set_svg_double(repr, "x1", lg->x1.computed);

sp_repr_set_svg_double(repr, "y1", lg->y1.computed);

stop->offset = 0;

sp_repr_set_css_double (SP_OBJECT_REPR (stop), "offset", 0);

// iterate through midstops to set new offset values such that they won't move on canvas.

SPStop *laststop = sp_last_stop(stopinfo->vector);

stop = sp_next_stop(stop);

while ( stop != laststop ) {

stop->offset = (stop->offset - offset)/(1 - offset);

sp_repr_set_css_double (SP_OBJECT_REPR (stop), "offset", stop->offset);

stop = sp_next_stop(stop);

}

}

break;

case POINT_LG_END:

{

SP_OBJECT_REPR(stopinfo->vector)->removeChild(SP_OBJECT_REPR(stopinfo->spstop));

SPLinearGradient *lg = SP_LINEARGRADIENT(stopinfo->gradient);

NR::Point begin = NR::Point (lg->x1.computed, lg->y1.computed);

NR::Point oldend = NR::Point (lg->x2.computed, lg->y2.computed);

SPStop *laststop = sp_last_stop(stopinfo->vector);

gdouble offset = laststop->offset;

NR::Point newend = begin + offset * (oldend - begin);

lg->x2.computed = newend[NR::X];

lg->y2.computed = newend[NR::Y];

Inkscape::XML::Node *repr = SP_OBJECT_REPR(stopinfo->gradient);

sp_repr_set_svg_double(repr, "x2", lg->x2.computed);

sp_repr_set_svg_double(repr, "y2", lg->y2.computed);

laststop->offset = 1;

sp_repr_set_css_double (SP_OBJECT_REPR (laststop), "offset", 1);

// iterate through midstops to set new offset values such that they won't move on canvas.

SPStop *stop = sp_first_stop(stopinfo->vector);

stop = sp_next_stop(stop);

while ( stop != laststop ) {

stop->offset = stop->offset / offset;

sp_repr_set_css_double (SP_OBJECT_REPR (stop), "offset", stop->offset);

stop = sp_next_stop(stop);

}

}

break;

case POINT_RG_CENTER:

{

SPStop *newfirst = sp_next_stop (stopinfo->spstop);

if (newfirst) {

newfirst->offset = 0;

sp_repr_set_css_double (SP_OBJECT_REPR (newfirst), "offset", 0);

}

SP_OBJECT_REPR(stopinfo->vector)->removeChild(SP_OBJECT_REPR(stopinfo->spstop));

}

break;

case POINT_RG_R1:

case POINT_RG_R2:

SP_OBJECT_REPR(stopinfo->vector)->removeChild(SP_OBJECT_REPR(stopinfo->spstop));

SPRadialGradient *rg = SP_RADIALGRADIENT(stopinfo->gradient);

double oldradius = rg->r.computed;

SPStop *laststop = sp_last_stop(stopinfo->vector);

gdouble offset = laststop->offset;

double newradius = offset * oldradius;

rg->r.computed = newradius;

Inkscape::XML::Node *repr = SP_OBJECT_REPR(rg);

sp_repr_set_svg_double(repr, "r", rg->r.computed);

laststop->offset = 1;

sp_repr_set_css_double (SP_OBJECT_REPR (laststop), "offset", 1);

// iterate through midstops to set new offset values such that they won't move on canvas.

SPStop *stop = sp_first_stop(stopinfo->vector);

stop = sp_next_stop(stop);

while ( stop != laststop ) {

stop->offset = stop->offset / offset;

sp_repr_set_css_double (SP_OBJECT_REPR (stop), "offset", stop->offset);

stop = sp_next_stop(stop);

}

break;

}

}

else

{ // delete the gradient from the object. set fill to unset FIXME: set to fill of unselected node?

SPCSSAttr *css = sp_repr_css_attr_new ();

// stopinfo->spstop is the selected stop

Inkscape::XML::Node *unselectedrepr = SP_OBJECT_REPR(stopinfo->vector)->firstChild();

if (unselectedrepr == SP_OBJECT_REPR(stopinfo->spstop) ) {

unselectedrepr = unselectedrepr->next();

}

if (unselectedrepr == NULL) {

if (stopinfo->draggable->fill_or_stroke) {

sp_repr_css_unset_property (css, "fill");

} else {

sp_repr_css_unset_property (css, "stroke");

}

} else {

SPCSSAttr *stopcss = sp_repr_css_attr(unselectedrepr, "style");

if (stopinfo->draggable->fill_or_stroke) {

sp_repr_css_set_property(css, "fill", sp_repr_css_property(stopcss, "stop-color", "inkscape:unset"));

sp_repr_css_set_property(css, "fill-opacity", sp_repr_css_property(stopcss, "stop-opacity", "1"));

} else {

sp_repr_css_set_property(css, "stroke", sp_repr_css_property(stopcss, "stop-color", "inkscape:unset"));

sp_repr_css_set_property(css, "stroke-opacity", sp_repr_css_property(stopcss, "stop-opacity", "1"));

}

sp_repr_css_attr_unref (stopcss);

}

sp_repr_css_change (SP_OBJECT_REPR (stopinfo->draggable->item), css, "style");

sp_repr_css_attr_unref (css);

}

endstoplist = g_slist_remove(endstoplist, stopinfo);

delete stopinfo;

}

if (document) {

sp_document_done ( document, SP_VERB_CONTEXT_GRADIENT, _("Delete gradient stop(s)") );

}

}