#define __SHAPE_EDITOR_CPP__

#ifdef HAVE_CONFIG_H

#include "config.h"

#endif

#include <string.h>

#include <glibmm/i18n.h>

#include "sp-object.h"

#include "sp-item.h"

#include "live_effects/lpeobject.h"

#include "selection.h"

#include "desktop.h"

#include "desktop-handles.h"

#include "knotholder.h"

#include "live_effects/parameter/pointparam-knotholder.h"

#include "nodepath.h"

#include "xml/node-event-vector.h"

#include "prefs-utils.h"

#include "object-edit.h"

#include "style.h"

#include "display/curve.h"

#include <2geom/pathvector.h>

#include "shape-editor.h"

ShapeEditorsCollective::ShapeEditorsCollective(SPDesktop */*dt*/) {

}

ShapeEditorsCollective::~ShapeEditorsCollective() {

}

void ShapeEditorsCollective::update_statusbar() {

}

ShapeEditor::ShapeEditor(SPDesktop *dt) {

this->desktop = dt;

this->grab_node = -1;

this->nodepath = NULL;

this->knotholder = NULL;

this->hit = false;

this->listener_attached_for = NULL;

}

ShapeEditor::~ShapeEditor() {

unset_item(SH_KNOTHOLDER);

unset_item(SH_NODEPATH);

}

void ShapeEditor::unset_item(SubType type, bool keep_knotholder) {

Inkscape::XML::Node *old_repr = NULL;

switch (type) {

case SH_NODEPATH:

if (this->nodepath) {

old_repr = this->nodepath->repr;

if (old_repr && old_repr == listener_attached_for) {

sp_repr_remove_listener_by_data(old_repr, this);

Inkscape::GC::release(old_repr);

listener_attached_for = NULL;

}

this->grab_node = -1;

sp_nodepath_destroy(this->nodepath);

this->nodepath = NULL;

}

break;

case SH_KNOTHOLDER:

if (this->knotholder) {

old_repr = this->knotholder->repr;

if (old_repr && old_repr == listener_attached_for) {

sp_repr_remove_listener_by_data(old_repr, this);

Inkscape::GC::release(old_repr);

listener_attached_for = NULL;

}

if (!keep_knotholder) {

delete this->knotholder;

this->knotholder = NULL;

}

}

break;

}

}

bool ShapeEditor::has_nodepath () {

return (this->nodepath != NULL);

}

bool ShapeEditor::has_knotholder () {

return (this->knotholder != NULL);

}

void ShapeEditor::update_knotholder () {

if (this->knotholder)

this->knotholder->update_knots();

}

bool ShapeEditor::has_local_change (SubType type) {

switch (type) {

case SH_NODEPATH:

return (this->nodepath && this->nodepath->local_change);

case SH_KNOTHOLDER:

return (this->knotholder && this->knotholder->local_change != 0);

default:

g_assert_not_reached();

}

}

void ShapeEditor::decrement_local_change (SubType type) {

switch (type) {

case SH_NODEPATH:

if (this->nodepath && this->nodepath->local_change > 0) {

this->nodepath->local_change--;

}

break;

case SH_KNOTHOLDER:

if (this->knotholder) {

this->knotholder->local_change = FALSE;

}

break;

default:

g_assert_not_reached();

}

}

const SPItem *ShapeEditor::get_item (SubType type) {

const SPItem *item = NULL;

switch (type) {

case SH_NODEPATH:

if (this->has_nodepath()) {

item = this->nodepath->item;

}

break;

case SH_KNOTHOLDER:

if (this->has_knotholder()) {

item = this->knotholder->getItem();

}

break;

}

return item;

}

GList *ShapeEditor::save_nodepath_selection () {

if (this->nodepath)

return ::save_nodepath_selection (this->nodepath);

return NULL;

}

void ShapeEditor::restore_nodepath_selection (GList *saved) {

if (this->nodepath && saved)

::restore_nodepath_selection (this->nodepath, saved);

}

bool ShapeEditor::nodepath_edits_repr_key(gchar const *name) {

if (nodepath && name) {

return ( !strcmp(name, nodepath->repr_key) || !strcmp(name, nodepath->repr_nodetypes_key) );

}

return false;

}

static void shapeeditor_event_attr_changed(Inkscape::XML::Node */*repr*/, gchar const *name,

gchar const */*old_value*/, gchar const */*new_value*/,

bool /*is_interactive*/, gpointer data)

{

gboolean changed_np = FALSE;

gboolean changed_kh = FALSE;

g_assert(data);

ShapeEditor *sh = ((ShapeEditor *) data);

if (sh->has_nodepath() && sh->nodepath_edits_repr_key(name))

{

changed_np = !sh->has_local_change(SH_NODEPATH);

sh->decrement_local_change(SH_NODEPATH);

}

if (changed_np) {

GList *saved = NULL;

if (sh->has_nodepath()) {

saved = sh->save_nodepath_selection();

}

sh->reset_item(SH_NODEPATH);

if (sh->has_nodepath() && saved) {

sh->restore_nodepath_selection(saved);

g_list_free (saved);

}

}

if (sh->has_knotholder())

{

changed_kh = !sh->has_local_change(SH_KNOTHOLDER);

sh->decrement_local_change(SH_KNOTHOLDER);

if (changed_kh) {

// this can happen if an LPEItem's knotholder handle was dragged, in which case we want

// to keep the knotholder; in all other cases (e.g., if the LPE itself changes) we delete it

sh->reset_item(SH_KNOTHOLDER, !strcmp(name, "d"));

}

}

sh->update_statusbar(); //TODO: sh->get_container()->update_statusbar();

}

static Inkscape::XML::NodeEventVector shapeeditor_repr_events = {

NULL, /* child_added */

NULL, /* child_removed */

shapeeditor_event_attr_changed,

NULL, /* content_changed */

NULL /* order_changed */

};

void ShapeEditor::set_item(SPItem *item, SubType type, bool keep_knotholder) {

// this happens (and should only happen) when for an LPEItem having both knotholder and nodepath the knotholder

// is adapted; in this case we don't want to delete the knotholder since this freezes the handles

unset_item(type, keep_knotholder);

this->grab_node = -1;

if (item) {

Inkscape::XML::Node *repr;

switch(type) {

case SH_NODEPATH:

if (SP_IS_LPE_ITEM(item)) {

this->nodepath = sp_nodepath_new(desktop, item, (prefs_get_int_attribute("tools.nodes", "show_handles", 1) != 0));

}

if (this->nodepath) {

this->nodepath->shape_editor = this;

// setting new listener

repr = SP_OBJECT_REPR(item);

if (repr != listener_attached_for) {

Inkscape::GC::anchor(repr);

sp_repr_add_listener(repr, &shapeeditor_repr_events, this);

listener_attached_for = repr;

}

}

break;

case SH_KNOTHOLDER:

if (!this->knotholder) {

// only recreate knotholder if none is present

this->knotholder = sp_item_knot_holder(item, desktop);

}

if (this->knotholder) {

this->knotholder->update_knots();

// setting new listener

repr = this->knotholder->repr;

if (repr != listener_attached_for) {

Inkscape::GC::anchor(repr);

sp_repr_add_listener(repr, &shapeeditor_repr_events, this);

listener_attached_for = repr;

}

}

break;

}

}

}

void ShapeEditor::set_item_lpe_path_parameter(SPItem *item, SPObject *lpeobject, const char * key)

{

unset_item(SH_NODEPATH);

this->grab_node = -1;

if (lpeobject) {

this->nodepath = sp_nodepath_new( desktop, lpeobject,

(prefs_get_int_attribute("tools.nodes", "show_handles", 1) != 0),

key, item);

if (this->nodepath) {

this->nodepath->shape_editor = this;

// setting new listener

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

if (repr && repr != listener_attached_for) {

Inkscape::GC::anchor(repr);

sp_repr_add_listener(repr, &shapeeditor_repr_events, this);

listener_attached_for = repr;

}

}

}

}

ShapeEditor::set_knotholder(KnotHolder * knot_holder)

{

unset_item(SH_KNOTHOLDER);

this->grab_node = -1;

if (knot_holder) {

this->knotholder = knot_holder;

}

}

void ShapeEditor::reset_item (SubType type, bool keep_knotholder)

{

switch (type) {

case SH_NODEPATH:

if ( (this->nodepath) && (IS_LIVEPATHEFFECT(this->nodepath->object)) ) {

SPItem * item = this->nodepath->item;

SPObject *obj = this->nodepath->object;

char * key = g_strdup(this->nodepath->repr_key);

set_item_lpe_path_parameter(item, obj, key); // the above checks for nodepath, so it is indeed a path that we are editing

g_free(key);

} else {

SPItem * item = (SPItem *) get_item(SH_NODEPATH);

set_item(item, SH_NODEPATH);

}

break;

case SH_KNOTHOLDER:

if (this->knotholder) {

SPItem * item = (SPItem *) get_item(SH_KNOTHOLDER);

set_item(item, SH_KNOTHOLDER, keep_knotholder);

}

break;

}

}

void ShapeEditor::nodepath_destroyed () {

this->nodepath = NULL;

}

void ShapeEditor::update_statusbar () {

if (this->nodepath)

sp_nodepath_update_statusbar(this->nodepath);

}

bool ShapeEditor::is_over_stroke (NR::Point event_p, bool remember) {

if (!this->nodepath)

return false; // no stroke in knotholder

const SPItem *item = get_item(SH_NODEPATH);

//Translate click point into proper coord system

this->curvepoint_doc = desktop->w2d(event_p);

this->curvepoint_doc *= sp_item_dt2i_affine(item);

SPCurve *curve = this->nodepath->curve; // not sure if np->curve is always up to date...

Geom::PathVector const &pathv = curve->get_pathvector();

boost::optional<Geom::PathVectorPosition> pvpos = Geom::nearestPoint(pathv, this->curvepoint_doc);

if (!pvpos) {

g_print("Warning! Possible error?\n");

return false;

}

NR::Point nearest = pathv[pvpos->path_nr].pointAt(pvpos->t);

NR::Point delta = nearest - this->curvepoint_doc;

delta = desktop->d2w(delta);

double stroke_tolerance =

(( !SP_OBJECT_STYLE(item)->stroke.isNone() ?

desktop->current_zoom() *

SP_OBJECT_STYLE (item)->stroke_width.computed * 0.5 *

NR::expansion(sp_item_i2d_affine(item))

: 0.0)

+ prefs_get_int_attribute_limited("options.dragtolerance", "value", 0, 0, 100)) /NR::expansion(sp_item_i2d_affine(item));

bool close = (NR::L2 (delta) < stroke_tolerance);

if (remember && close) {

// calculate index for nodepath's representation.

double int_part;

double t = std::modf(pvpos->t, &int_part);

unsigned int segment_index = (unsigned int)int_part + 1;

for (unsigned int i = 0; i < pvpos->path_nr; ++i) {

segment_index += pathv[i].size() + 1;

if (pathv[i].closed())

segment_index += 1;

}

this->curvepoint_event[NR::X] = (gint) event_p [NR::X];

this->curvepoint_event[NR::Y] = (gint) event_p [NR::Y];

this->hit = true;

this->grab_t = t;

this->grab_node = segment_index;

}

return close;

}

void ShapeEditor::add_node_near_point() {

if (this->nodepath) {

sp_nodepath_add_node_near_point(this->nodepath, this->curvepoint_doc);

} else if (this->knotholder) {

// we do not add nodes in knotholder... yet

}

}

void ShapeEditor::select_segment_near_point(bool toggle) {

if (this->nodepath) {

sp_nodepath_select_segment_near_point(this->nodepath, this->curvepoint_doc, toggle);

}

if (this->knotholder) {

// we do not select segments in knotholder... yet?

}

}

void ShapeEditor::cancel_hit() {

this->hit = false;

}

bool ShapeEditor::hits_curve() {

return (this->hit);

}

void ShapeEditor::curve_drag(gdouble eventx, gdouble eventy) {

if (this->nodepath && !this->nodepath->straight_path) {

if (this->grab_node == -1) // don't know which segment to drag

return;

// We round off the extra precision in the motion coordinates provided

// by some input devices (like tablets). As we'll store the coordinates

// as integers in curvepoint_event we need to do this rounding before

// comparing them with the last coordinates from curvepoint_event.

// See bug #1593499 for details.

gint x = (gint) Inkscape::round(eventx);

gint y = (gint) Inkscape::round(eventy);

// The coordinates hasn't changed since the last motion event, abort

if (this->curvepoint_event[NR::X] == x &&

this->curvepoint_event[NR::Y] == y)

return;

NR::Point const delta_w(eventx - this->curvepoint_event[NR::X],

eventy - this->curvepoint_event[NR::Y]);

NR::Point const delta_dt(this->desktop->w2d(delta_w));

sp_nodepath_curve_drag (this->nodepath, this->grab_node, this->grab_t, delta_dt);

this->curvepoint_event[NR::X] = x;

this->curvepoint_event[NR::Y] = y;

}

if (this->knotholder) {

// we do not drag curve in knotholder

}

}

void ShapeEditor::finish_drag() {

if (this->nodepath && this->hit) {

sp_nodepath_update_repr (this->nodepath, _("Drag curve"));

}

}

void ShapeEditor::select_rect(NR::Rect const &rect, bool add) {

if (this->nodepath) {

sp_nodepath_select_rect(this->nodepath, rect, add);

}

}

bool ShapeEditor::has_selection() {

if (this->nodepath)

return this->nodepath->selected;

return false; // so far, knotholder cannot have selection

}

void ShapeEditor::deselect() {

if (this->nodepath)

sp_nodepath_deselect(this->nodepath);

}

void ShapeEditor::add_node () {

sp_node_selected_add_node(this->nodepath);

}

void ShapeEditor::delete_nodes () {

sp_node_selected_delete(this->nodepath);

}

void ShapeEditor::delete_nodes_preserving_shape () {

if (this->nodepath && this->nodepath->selected) {

sp_node_delete_preserve(g_list_copy(this->nodepath->selected));

}

}

void ShapeEditor::delete_segment () {

sp_node_selected_delete_segment(this->nodepath);

}

void ShapeEditor::set_node_type(int type) {

sp_node_selected_set_type(this->nodepath, (Inkscape::NodePath::NodeType) type);

}

void ShapeEditor::break_at_nodes() {

sp_node_selected_break(this->nodepath);

}

void ShapeEditor::join_nodes() {

sp_node_selected_join(this->nodepath);

}

void ShapeEditor::join_segments() {

sp_node_selected_join_segment(this->nodepath);

}

void ShapeEditor::duplicate_nodes() {

sp_node_selected_duplicate(this->nodepath);

}

void ShapeEditor::set_type_of_segments(NRPathcode code) {

sp_node_selected_set_line_type(this->nodepath, code);

}

void ShapeEditor::move_nodes_screen(SPDesktop *desktop, gdouble dx, gdouble dy) {

sp_node_selected_move_screen(desktop, this->nodepath, dx, dy);

}

void ShapeEditor::move_nodes(gdouble dx, gdouble dy) {

sp_node_selected_move(this->nodepath, dx, dy);

}

void ShapeEditor::rotate_nodes(gdouble angle, int which, bool screen) {

if (this->nodepath)

sp_nodepath_selected_nodes_rotate (this->nodepath, angle, which, screen);

}

void ShapeEditor::scale_nodes(gdouble const grow, int const which) {

sp_nodepath_selected_nodes_scale(this->nodepath, grow, which);

}

void ShapeEditor::scale_nodes_screen(gdouble const grow, int const which) {

sp_nodepath_selected_nodes_scale_screen(this->nodepath, grow, which);

}

void ShapeEditor::select_all (bool invert) {

if (this->nodepath)

sp_nodepath_select_all (this->nodepath, invert);

}

void ShapeEditor::select_all_from_subpath (bool invert) {

if (this->nodepath)

sp_nodepath_select_all_from_subpath (this->nodepath, invert);

}

void ShapeEditor::select_next () {

if (this->nodepath) {

sp_nodepath_select_next (this->nodepath);

if (this->nodepath->numSelected() >= 1) {

this->desktop->scroll_to_point(this->nodepath->singleSelectedCoords(), 1.0);

}

}

}

void ShapeEditor::select_prev () {

if (this->nodepath) {

sp_nodepath_select_prev (this->nodepath);

if (this->nodepath->numSelected() >= 1) {

this->desktop->scroll_to_point(this->nodepath->singleSelectedCoords(), 1.0);

}

}

}

void ShapeEditor::show_handles (bool show) {

if (this->nodepath && !this->nodepath->straight_path)

sp_nodepath_show_handles (this->nodepath, show);

}

void ShapeEditor::show_helperpath (bool show) {

if (this->nodepath)

sp_nodepath_show_helperpath (this->nodepath, show);

}

void ShapeEditor::flip (NR::Dim2 axis, boost::optional<NR::Point> center) {

if (this->nodepath)

sp_nodepath_flip (this->nodepath, axis, center);

}

void ShapeEditor::distribute (NR::Dim2 axis) {

if (this->nodepath)

sp_nodepath_selected_distribute (this->nodepath, axis);

}

void ShapeEditor::align (NR::Dim2 axis) {

if (this->nodepath)

sp_nodepath_selected_align (this->nodepath, axis);

}