#ifdef HAVE_CONFIG_H

# include <config.h>

#endif

#include <cstring>

#include <string>

#include <2geom/transforms.h>

#include <gdk/gdkkeysyms.h>

#include "document.h"

#include "document-undo.h"

#include "sp-namedview.h"

#include "desktop.h"

#include "desktop-handles.h"

#include "desktop-style.h"

#include "knot.h"

#include "message-stack.h"

#include "snap.h"

#include "selection.h"

#include "ui/tools/select-tool.h"

#include "sp-item.h"

#include "sp-item-transform.h"

#include "sp-root.h"

#include "seltrans-handles.h"

#include "seltrans.h"

#include "selection-chemistry.h"

#include "verbs.h"

#include <glibmm/i18n.h>

#include "display/sp-ctrlline.h"

#include "display/sodipodi-ctrl.h"

#include "preferences.h"

#include "xml/repr.h"

#include "mod360.h"

#include <2geom/angle.h>

#include "display/snap-indicator.h"

#include "ui/control-manager.h"

#include "seltrans-handles.h"

using Inkscape::ControlManager;

using Inkscape::DocumentUndo;

static void sp_sel_trans_handle_grab(SPKnot *knot, guint state, SPSelTransHandle const* data);

static void sp_sel_trans_handle_ungrab(SPKnot *knot, guint state, SPSelTransHandle const* data);

static void sp_sel_trans_handle_click(SPKnot *knot, guint state, SPSelTransHandle const* data);

static void sp_sel_trans_handle_new_event(SPKnot *knot, Geom::Point const &position, guint32 state, SPSelTransHandle const* data);

static gboolean sp_sel_trans_handle_request(SPKnot *knot, Geom::Point *p, guint state, SPSelTransHandle const *data);

extern GdkPixbuf *handles[];

static gboolean sp_sel_trans_handle_event(SPKnot *knot, GdkEvent *event, SPSelTransHandle const*)

{

switch (event->type) {

case GDK_MOTION_NOTIFY:

break;

case GDK_KEY_PRESS:

if (Inkscape::UI::Tools::get_group0_keyval (&event->key) == GDK_KEY_space) {

/* stamping mode: both mode(show content and outline) operation with knot */

if (!SP_KNOT_IS_GRABBED(knot)) {

return FALSE;

}

SPDesktop *desktop = knot->desktop;

Inkscape::SelTrans *seltrans = SP_SELECT_CONTEXT(desktop->event_context)->_seltrans;

seltrans->stamp();

return TRUE;

}

break;

default:

break;

}

return FALSE;

}

Inkscape::SelTrans::BoundingBoxPrefsObserver::BoundingBoxPrefsObserver(SelTrans &sel_trans) :

Observer("/tools/bounding_box"),

_sel_trans(sel_trans)

{

}

void Inkscape::SelTrans::BoundingBoxPrefsObserver::notify(Preferences::Entry const &val)

{

_sel_trans._boundingBoxPrefsChanged(static_cast<int>(val.getBool()));

}

Inkscape::SelTrans::SelTrans(SPDesktop *desktop) :

_desktop(desktop),

_selcue(desktop),

_state(STATE_SCALE),

_show(SHOW_CONTENT),

_grabbed(false),

_show_handles(true),

_bbox(),

_visual_bbox(),

_absolute_affine(Geom::Scale(1,1)),

_opposite(Geom::Point(0,0)),

_opposite_for_specpoints(Geom::Point(0,0)),

_opposite_for_bboxpoints(Geom::Point(0,0)),

_origin_for_specpoints(Geom::Point(0,0)),

_origin_for_bboxpoints(Geom::Point(0,0)),

_stamp_cache(NULL),

_message_context(desktop->messageStack()),

_bounding_box_prefs_observer(*this)

{

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

int prefs_bbox = prefs->getBool("/tools/bounding_box");

_snap_bbox_type = !prefs_bbox ?

SPItem::VISUAL_BBOX : SPItem::GEOMETRIC_BBOX;

g_return_if_fail(desktop != NULL);

_updateVolatileState();

_current_relative_affine.setIdentity();

_center_is_set = false; // reread _center from items, or set to bbox midpoint

_makeHandles();

_updateHandles();

_selection = sp_desktop_selection(desktop);

_norm = sp_canvas_item_new(sp_desktop_controls(desktop),

SP_TYPE_CTRL,

"anchor", SP_ANCHOR_CENTER,

"mode", SP_CTRL_MODE_COLOR,

"shape", SP_CTRL_SHAPE_BITMAP,

"size", 13.0,

"filled", TRUE,

"fill_color", 0x00000000,

"stroked", TRUE,

"stroke_color", 0x000000a0,

"pixbuf", handles[12],

NULL);

_grip = sp_canvas_item_new(sp_desktop_controls(desktop),

SP_TYPE_CTRL,

"anchor", SP_ANCHOR_CENTER,

"mode", SP_CTRL_MODE_XOR,

"shape", SP_CTRL_SHAPE_CROSS,

"size", 7.0,

"filled", TRUE,

"fill_color", 0xffffff7f,

"stroked", TRUE,

"stroke_color", 0xffffffff,

"pixbuf", handles[12],

NULL);

sp_canvas_item_hide(_grip);

sp_canvas_item_hide(_norm);

for (int i = 0; i < 4; i++) {

_l[i] = ControlManager::getManager().createControlLine(sp_desktop_controls(desktop));

sp_canvas_item_hide(_l[i]);

}

_sel_changed_connection = _selection->connectChanged(

sigc::mem_fun(*this, &Inkscape::SelTrans::_selChanged)

);

_sel_modified_connection = _selection->connectModified(

sigc::mem_fun(*this, &Inkscape::SelTrans::_selModified)

);

_all_snap_sources_iter = _all_snap_sources_sorted.end();

prefs->addObserver(_bounding_box_prefs_observer);

}

Inkscape::SelTrans::~SelTrans()

{

_sel_changed_connection.disconnect();

_sel_modified_connection.disconnect();

for (int i = 0; i < NUMHANDS; i++) {

knot_unref(knots[i]);

knots[i] = NULL;

}

if (_norm) {

sp_canvas_item_destroy(_norm);

_norm = NULL;

}

if (_grip) {

sp_canvas_item_destroy(_grip);

_grip = NULL;

}

for (int i = 0; i < 4; i++) {

if (_l[i]) {

sp_canvas_item_destroy(_l[i]);

_l[i] = NULL;

}

}

for (unsigned i = 0; i < _items.size(); i++) {

sp_object_unref(_items[i], NULL);

}

_items.clear();

_items_const.clear();

_items_affines.clear();

_items_centers.clear();

}

void Inkscape::SelTrans::resetState()

{

_state = STATE_SCALE;

}

void Inkscape::SelTrans::increaseState()

{

if (_state == STATE_SCALE) {

_state = STATE_ROTATE;

} else {

_state = STATE_SCALE;

}

_center_is_set = true; // no need to reread center

_updateHandles();

}

void Inkscape::SelTrans::setCenter(Geom::Point const &p)

{

_center = p;

_center_is_set = true;

// Write the new center position into all selected items

for (GSList const *l = _desktop->selection->itemList(); l; l = l->next) {

SPItem *it = SP_ITEM(l->data);

it->setCenter(p);

// only set the value; updating repr and document_done will be done once, on ungrab

}

_updateHandles();

}

void Inkscape::SelTrans::grab(Geom::Point const &p, gdouble x, gdouble y, bool show_handles, bool translating)

{

// While dragging a handle, we will either scale, skew, or rotate and the "translating" parameter will be false

// When dragging the selected item itself however, we will translate the selection and that parameter will be true

Inkscape::Selection *selection = sp_desktop_selection(_desktop);

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

g_return_if_fail(!_grabbed);

_grabbed = true;

_show_handles = show_handles;

_updateVolatileState();

_current_relative_affine.setIdentity();

_changed = false;

if (_empty) {

return;

}

for (GSList const *l = selection->itemList(); l; l = l->next) {

SPItem *it = reinterpret_cast<SPItem*>(sp_object_ref(SP_ITEM(l->data), NULL));

_items.push_back(it);

_items_const.push_back(it);

_items_affines.push_back(it->i2dt_affine());

_items_centers.push_back(it->getCenter()); // for content-dragging, we need to remember original centers

}

_handle_x = x;

_handle_y = y;

// The selector tool should snap the bbox, special snappoints, and path nodes

// (The special points are the handles, center, rotation axis, font baseline, ends of spiral, etc.)

// First, determine the bounding box

_bbox = selection->bounds(_snap_bbox_type);

_visual_bbox = selection->visualBounds(); // Used for correctly scaling the strokewidth

_geometric_bbox = selection->geometricBounds();

_point = p;

if (_geometric_bbox) {

_point_geom = _geometric_bbox->min() + _geometric_bbox->dimensions() * Geom::Scale(x, y);

} else {

_point_geom = p;

}

// Next, get all points to consider for snapping

SnapManager const &m = _desktop->namedview->snap_manager;

_snap_points.clear();

if (m.someSnapperMightSnap(false)) { // Only search for snap sources when really needed, to avoid unnecessary delays

_snap_points = selection->getSnapPoints(&m.snapprefs); // This might take some time!

}

if (_snap_points.size() > 200 && !(prefs->getBool("/options/snapclosestonly/value", false))) {

/* Snapping a huge number of nodes will take way too long, so limit the number of snappable nodes

_snap_points.resize(200);

// Unfortunately, by now we will have lost the font-baseline snappoints :-(

}

// Find bbox hulling all special points, which excludes stroke width. Here we need to include the

// path nodes, for example because a rectangle which has been converted to a path doesn't have

// any other special points

Geom::OptRect snap_points_bbox = selection->bounds(SPItem::GEOMETRIC_BBOX);

_bbox_points.clear();

// Collect the bounding box's corners and midpoints for each selected item

if (m.snapprefs.isTargetSnappable(SNAPTARGET_BBOX_CATEGORY)) {

bool c = m.snapprefs.isTargetSnappable(SNAPTARGET_BBOX_CORNER);

bool mp = m.snapprefs.isTargetSnappable(SNAPTARGET_BBOX_MIDPOINT);

bool emp = m.snapprefs.isTargetSnappable(SNAPTARGET_BBOX_EDGE_MIDPOINT);

// Preferably we'd use the bbox of each selected item, but for example 50 items will produce at least 200 bbox points,

// which might make Inkscape crawl(see the comment a few lines above). In that case we will use the bbox of the selection as a whole

bool c1 = (_items.size() > 0) && (_items.size() < 50);

bool c2 = prefs->getBool("/options/snapclosestonly/value", false);

if (translating && (c1 || c2)) {

// Get the bounding box points for each item in the selection

for (unsigned i = 0; i < _items.size(); i++) {

Geom::OptRect b = _items[i]->desktopBounds(_snap_bbox_type);

getBBoxPoints(b, &_bbox_points, false, c, emp, mp);

}

} else {

// Only get the bounding box points of the selection as a whole

getBBoxPoints(selection->bounds(_snap_bbox_type), &_bbox_points, false, c, emp, mp);

}

}

if (_bbox) {

// There are two separate "opposites" (i.e. opposite w.r.t. the handle being dragged):

// - one for snapping the boundingbox, which can be either visual or geometric

// - one for snapping the special points

// The "opposite" in case of a geometric boundingbox always coincides with the "opposite" for the special points

// These distinct "opposites" are needed in the snapmanager to avoid bugs such as LP167905 (in which

// a box is caught between two guides)

_opposite_for_bboxpoints = _bbox->min() + _bbox->dimensions() * Geom::Scale(1-x, 1-y);

if (snap_points_bbox) {

_opposite_for_specpoints = (*snap_points_bbox).min() + (*snap_points_bbox).dimensions() * Geom::Scale(1-x, 1-y);

} else {

_opposite_for_specpoints = _opposite_for_bboxpoints;

}

_opposite = _opposite_for_bboxpoints;

}

// When snapping the node closest to the mouse pointer is absolutely preferred over the closest snap

// (i.e. when weight == 1), then we will not even try to snap to other points and disregard those other points

if (prefs->getBool("/options/snapclosestonly/value", false)) {

_keepClosestPointOnly(p);

}

if ((x != -1) && (y != -1)) {

sp_canvas_item_show(_norm);

sp_canvas_item_show(_grip);

}

if (_show == SHOW_OUTLINE) {

for (int i = 0; i < 4; i++)

sp_canvas_item_show(_l[i]);

}

_updateHandles();

g_return_if_fail(_stamp_cache == NULL);

}

void Inkscape::SelTrans::transform(Geom::Affine const &rel_affine, Geom::Point const &norm)

{

g_return_if_fail(_grabbed);

g_return_if_fail(!_empty);

Geom::Affine const affine( Geom::Translate(-norm) * rel_affine * Geom::Translate(norm) );

if (_show == SHOW_CONTENT) {

// update the content

for (unsigned i = 0; i < _items.size(); i++) {

SPItem &item = *_items[i];

if( SP_IS_ROOT(&item) ) {

_desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Cannot transform an embedded SVG."));

break;

}

Geom::Affine const &prev_transform = _items_affines[i];

item.set_i2d_affine(prev_transform * affine);

}

} else {

if (_bbox) {

Geom::Point p[4];

/* update the outline */

for (unsigned i = 0 ; i < 4 ; i++) {

p[i] = _bbox->corner(i) * affine;

}

for (unsigned i = 0 ; i < 4 ; i++) {

_l[i]->setCoords(p[i], p[(i+1)%4]);

}

}

}

_current_relative_affine = affine;

_changed = true;

_updateHandles();

}

void Inkscape::SelTrans::ungrab()

{

g_return_if_fail(_grabbed);

_grabbed = false;

_show_handles = true;

_desktop->snapindicator->remove_snapsource();

Inkscape::Selection *selection = sp_desktop_selection(_desktop);

_updateVolatileState();

for (unsigned i = 0; i < _items.size(); i++) {

sp_object_unref(_items[i], NULL);

}

sp_canvas_item_hide(_norm);

sp_canvas_item_hide(_grip);

if (_show == SHOW_OUTLINE) {

for (int i = 0; i < 4; i++)

sp_canvas_item_hide(_l[i]);

}

if (_stamp_cache) {

g_slist_free(_stamp_cache);

_stamp_cache = NULL;

}

_message_context.clear();

if (!_empty && _changed) {

sp_selection_apply_affine(selection, _current_relative_affine, (_show == SHOW_OUTLINE)? true : false);

if (_center) {

*_center *= _current_relative_affine;

_center_is_set = true;

}

if (_show != SHOW_OUTLINE && !_current_relative_affine.isTranslation()) {

for (unsigned i = 0; i < _items_centers.size(); i++) {

SPItem *currentItem = _items[i];

if (currentItem->isCenterSet()) { // only if it's already set

currentItem->setCenter (_items_centers[i] * _current_relative_affine);

currentItem->updateRepr();

}

}

}

_items.clear();

_items_const.clear();

_items_affines.clear();

_items_centers.clear();

if (_current_relative_affine.isTranslation()) {

DocumentUndo::done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT,

_("Move"));

} else if (_current_relative_affine.withoutTranslation().isScale()) {

DocumentUndo::done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT,

_("Scale"));

} else if (_current_relative_affine.withoutTranslation().isRotation()) {

DocumentUndo::done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT,

_("Rotate"));

} else {

DocumentUndo::done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT,

_("Skew"));

}

} else {

if (_center_is_set) {

// we were dragging center; update reprs and commit undoable action

for (GSList const *l = _desktop->selection->itemList(); l; l = l->next) {

SPItem *it = SP_ITEM(l->data);

it->updateRepr();

}

DocumentUndo::done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT,

_("Set center"));

}

_items.clear();

_items_const.clear();

_items_affines.clear();

_items_centers.clear();

_updateHandles();

}

}

void Inkscape::SelTrans::stamp()

{

Inkscape::Selection *selection = sp_desktop_selection(_desktop);

bool fixup = !_grabbed;

if ( fixup && _stamp_cache ) {

// TODO - give a proper fix. Simple temproary work-around for the grab() issue

g_slist_free(_stamp_cache);

_stamp_cache = NULL;

}

/* stamping mode */

if (!_empty) {

GSList *l;

if (_stamp_cache) {

l = _stamp_cache;

} else {

/* Build cache */

l = g_slist_copy((GSList *) selection->itemList());

l = g_slist_sort(l, (GCompareFunc) sp_object_compare_position);

_stamp_cache = l;

}

while (l) {

SPItem *original_item = SP_ITEM(l->data);

Inkscape::XML::Node *original_repr = original_item->getRepr();

// remember the position of the item

gint pos = original_repr->position();

// remember parent

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

Inkscape::XML::Node *copy_repr = original_repr->duplicate(parent->document());

// add the new repr to the parent

parent->appendChild(copy_repr);

// move to the saved position

copy_repr->setPosition(pos > 0 ? pos : 0);

SPItem *copy_item = (SPItem *) sp_desktop_document(_desktop)->getObjectByRepr(copy_repr);

Geom::Affine const *new_affine;

if (_show == SHOW_OUTLINE) {

Geom::Affine const i2d(original_item->i2dt_affine());

Geom::Affine const i2dnew( i2d * _current_relative_affine );

copy_item->set_i2d_affine(i2dnew);

new_affine = &copy_item->transform;

} else {

new_affine = &original_item->transform;

}

copy_item->doWriteTransform(copy_repr, *new_affine);

if ( copy_item->isCenterSet() && _center ) {

copy_item->setCenter(*_center * _current_relative_affine);

}

Inkscape::GC::release(copy_repr);

l = l->next;

}

DocumentUndo::done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT,

_("Stamp"));

}

if ( fixup && _stamp_cache ) {

// TODO - give a proper fix. Simple temproary work-around for the grab() issue

g_slist_free(_stamp_cache);

_stamp_cache = NULL;

}

}

void Inkscape::SelTrans::_updateHandles()

{

for (int i = 0; i < NUMHANDS; i++)

knots[i]->hide();

if ( !_show_handles || _empty )

return;

if (!_center_is_set) {

_center = _desktop->selection->center();

_center_is_set = true;

}

if ( _state == STATE_SCALE ) {

_showHandles(HANDLE_STRETCH);

_showHandles(HANDLE_SCALE);

} else {

_showHandles(HANDLE_SKEW);

_showHandles(HANDLE_ROTATE);

_showHandles(HANDLE_CENTER);

}

}

void Inkscape::SelTrans::_updateVolatileState()

{

Inkscape::Selection *selection = sp_desktop_selection(_desktop);

_empty = selection->isEmpty();

if (_empty) {

return;

}

//Update the bboxes

_bbox = selection->bounds(_snap_bbox_type);

_visual_bbox = selection->visualBounds();

if (!_bbox) {

_empty = true;

return;

}

_strokewidth = stroke_average_width (selection->itemList());

}

void Inkscape::SelTrans::_showHandles(SPSelTransType type)

{

// shouldn't have nullary bbox, but knots

g_assert(_bbox);

for (int i = 0; i < NUMHANDS; i++) {

if (hands[i].type != type)

continue;

// Position knots to scale the selection bbox

Geom::Point const bpos(hands[i].x, hands[i].y);

Geom::Point p(_bbox->min() + (_bbox->dimensions() * Geom::Scale(bpos)));

knots[i]->moveto(p);

knots[i]->show();

// This controls the center handle's position, because the default can

// be moved and needs to be remembered.

if( type == HANDLE_CENTER && _center )

knots[i]->moveto(*_center);

}

}

void Inkscape::SelTrans::_makeHandles()

{

for (int i = 0; i < NUMHANDS; i++) {

SPSelTransTypeInfo info = handtypes[hands[i].type];

knots[i] = new SPKnot(_desktop, info.tip);

knots[i]->setShape(SP_CTRL_SHAPE_BITMAP);

knots[i]->setSize(13);

knots[i]->setAnchor(hands[i].anchor);

knots[i]->setMode(SP_CTRL_MODE_XOR);

knots[i]->setFill(info.color[0], info.color[1], info.color[2]);

knots[i]->setStroke(info.color[3], info.color[4], info.color[5]);

knots[i]->setPixbuf(handles[hands[i].control]);

knots[i]->updateCtrl();

knots[i]->request_signal.connect(sigc::bind(sigc::ptr_fun(sp_sel_trans_handle_request), &hands[i]));

knots[i]->moved_signal.connect(sigc::bind(sigc::ptr_fun(sp_sel_trans_handle_new_event), &hands[i]));

knots[i]->grabbed_signal.connect(sigc::bind(sigc::ptr_fun(sp_sel_trans_handle_grab), &hands[i]));

knots[i]->ungrabbed_signal.connect(sigc::bind(sigc::ptr_fun(sp_sel_trans_handle_ungrab), &hands[i]));

knots[i]->click_signal.connect(sigc::bind(sigc::ptr_fun(sp_sel_trans_handle_click), &hands[i]));

knots[i]->event_signal.connect(sigc::bind(sigc::ptr_fun(sp_sel_trans_handle_event), &hands[i]));

}

}

static void sp_sel_trans_handle_grab(SPKnot *knot, guint state, SPSelTransHandle const* data)

{

SP_SELECT_CONTEXT(knot->desktop->event_context)->_seltrans->handleGrab(

knot, state, *(SPSelTransHandle const *) data

);

}

static void sp_sel_trans_handle_ungrab(SPKnot *knot, guint /*state*/, SPSelTransHandle const* /*data*/)

{

SP_SELECT_CONTEXT(knot->desktop->event_context)->_seltrans->ungrab();

}

static void sp_sel_trans_handle_new_event(SPKnot *knot, Geom::Point const& position, guint state, SPSelTransHandle const *data)

{

Geom::Point pos = position;

SP_SELECT_CONTEXT(knot->desktop->event_context)->_seltrans->handleNewEvent(

knot, &pos, state, *(SPSelTransHandle const *) data

);

}

static gboolean sp_sel_trans_handle_request(SPKnot *knot, Geom::Point *position, guint state, SPSelTransHandle const *data)

{

return SP_SELECT_CONTEXT(knot->desktop->event_context)->_seltrans->handleRequest(

knot, position, state, *(SPSelTransHandle const *) data

);

}

static void sp_sel_trans_handle_click(SPKnot *knot, guint state, SPSelTransHandle const* data)

{

SP_SELECT_CONTEXT(knot->desktop->event_context)->_seltrans->handleClick(

knot, state, *(SPSelTransHandle const *) data

);

}

void Inkscape::SelTrans::handleClick(SPKnot */*knot*/, guint state, SPSelTransHandle const &handle)

{

switch (handle.type) {

case HANDLE_CENTER:

if (state & GDK_SHIFT_MASK) {

// Unset the center position for all selected items

for (GSList const *l = _desktop->selection->itemList(); l; l = l->next) {

SPItem *it = SP_ITEM(l->data);

it->unsetCenter();

it->updateRepr();

_center_is_set = false; // center has changed

_updateHandles();

}

DocumentUndo::done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT,

_("Reset center"));

}

break;

default:

break;

}

}

void Inkscape::SelTrans::handleGrab(SPKnot *knot, guint /*state*/, SPSelTransHandle const &handle)

{

switch (handle.type) {

case HANDLE_CENTER:

g_object_set(G_OBJECT(_grip),

"shape", SP_CTRL_SHAPE_BITMAP,

"size", 13.0,

NULL);

sp_canvas_item_show(_grip);

break;

default:

g_object_set(G_OBJECT(_grip),

"shape", SP_CTRL_SHAPE_CROSS,

"size", 7.0,

NULL);

sp_canvas_item_show(_norm);

sp_canvas_item_show(_grip);

break;

}

grab(knot->position(), handle.x, handle.y, FALSE, FALSE);

}

void Inkscape::SelTrans::handleNewEvent(SPKnot *knot, Geom::Point *position, guint state, SPSelTransHandle const &handle)

{

if (!SP_KNOT_IS_GRABBED(knot)) {

return;

}

// in case items have been unhooked from the document, don't

// try to continue processing events for them.

for (unsigned int i = 0; i < _items.size(); i++) {

if ( !_items[i]->document ) {

return;

}

}

switch (handle.type) {

case HANDLE_SCALE:

scale(*position, state);

break;

case HANDLE_STRETCH:

stretch(handle, *position, state);

break;

case HANDLE_SKEW:

skew(handle, *position, state);

break;

case HANDLE_ROTATE:

rotate(*position, state);

break;

case HANDLE_CENTER:

setCenter(*position);

break;

}

}

gboolean Inkscape::SelTrans::handleRequest(SPKnot *knot, Geom::Point *position, guint state, SPSelTransHandle const &handle)

{

if (!SP_KNOT_IS_GRABBED(knot))

return TRUE;

// When holding shift while rotating or skewing, the transformation will be

// relative to the point opposite of the handle; otherwise it will be relative

// to the center as set for the selection

if ((!(state & GDK_SHIFT_MASK) == !(_state == STATE_ROTATE)) && (handle.type != HANDLE_CENTER)) {

_origin = _opposite;

_origin_for_bboxpoints = _opposite_for_bboxpoints;

_origin_for_specpoints = _opposite_for_specpoints;

} else if (_center) {

_origin = *_center;

_origin_for_bboxpoints = *_center;

_origin_for_specpoints = *_center;

} else {

// FIXME

return TRUE;

}

if (request(handle, *position, state)) {

knot->setPosition(*position, state);

SP_CTRL(_grip)->moveto(*position);

if (handle.type == HANDLE_CENTER) {

SP_CTRL(_norm)->moveto(*position);

} else {

SP_CTRL(_norm)->moveto(_origin);

}

}

return TRUE;

}

void Inkscape::SelTrans::_selChanged(Inkscape::Selection */*selection*/)

{

if (!_grabbed) {

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

// reread in case it changed on the fly:

int prefs_bbox = prefs->getBool("/tools/bounding_box");

_snap_bbox_type = !prefs_bbox ?

SPItem::VISUAL_BBOX : SPItem::GEOMETRIC_BBOX;

_updateVolatileState();

_current_relative_affine.setIdentity();

_center_is_set = false; // center(s) may have changed

_updateHandles();

}

}

void Inkscape::SelTrans::_selModified(Inkscape::Selection */*selection*/, guint /*flags*/)

{

if (!_grabbed) {

_updateVolatileState();

_current_relative_affine.setIdentity();

// reset internal flag

_changed = false;

_center_is_set = false; // center(s) may have changed

_updateHandles();

}

}

void Inkscape::SelTrans::_boundingBoxPrefsChanged(int prefs_bbox)

{

_snap_bbox_type = !prefs_bbox ?

SPItem::VISUAL_BBOX : SPItem::GEOMETRIC_BBOX;

_updateVolatileState();

_updateHandles();

}

static double sign(double const x)

{

return ( x < 0

? -1

: 1 );

}

gboolean Inkscape::SelTrans::scaleRequest(Geom::Point &pt, guint state)

{

// Calculate the scale factors, which can be either visual or geometric

// depending on which type of bbox is currently being used (see preferences -> selector tool)

Geom::Scale default_scale = calcScaleFactors(_point, pt, _origin);

// Find the scale factors for the geometric bbox

Geom::Point pt_geom = _getGeomHandlePos(pt);

Geom::Scale geom_scale = calcScaleFactors(_point_geom, pt_geom, _origin_for_specpoints);

_absolute_affine = Geom::identity(); //Initialize the scaler

if (state & GDK_MOD1_MASK) { // scale by an integer multiplier/divider

// We're scaling either the visual or the geometric bbox here (see the comment above)

for ( unsigned int i = 0 ; i < 2 ; i++ ) {

if (fabs(default_scale[i]) > 1) {

default_scale[i] = round(default_scale[i]);

} else if (default_scale[i] != 0) {

default_scale[i] = 1/round(1/(MIN(default_scale[i], 10)));

}

}

// Update the knot position

pt = _calcAbsAffineDefault(default_scale);

// When scaling by an integer, snapping is not needed

} else {

// In all other cases we should try to snap now

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

m.setup(_desktop, false, _items_const);

Inkscape::SnappedPoint bb, sn;

if ((state & GDK_CONTROL_MASK) || _desktop->isToolboxButtonActive ("lock")) {

// Scale is locked to a 1:1 aspect ratio, so that s[X] must be made to equal s[Y].

//

// The aspect-ratio must be locked before snapping

if (fabs(default_scale[Geom::X]) > fabs(default_scale[Geom::Y])) {

default_scale[Geom::X] = fabs(default_scale[Geom::Y]) * sign(default_scale[Geom::X]);

geom_scale[Geom::X] = fabs(geom_scale[Geom::Y]) * sign(geom_scale[Geom::X]);

} else {

default_scale[Geom::Y] = fabs(default_scale[Geom::X]) * sign(default_scale[Geom::Y]);

geom_scale[Geom::Y] = fabs(geom_scale[Geom::X]) * sign(geom_scale[Geom::Y]);

}

// Snap along a suitable constraint vector from the origin.

bb = m.constrainedSnapScale(_bbox_points, _point, default_scale, _origin_for_bboxpoints);

sn = m.constrainedSnapScale(_snap_points, _point, geom_scale, _origin_for_specpoints);

} else {

/* Scale aspect ratio is unlocked */

bb = m.freeSnapScale(_bbox_points, _point, default_scale, _origin_for_bboxpoints);

sn = m.freeSnapScale(_snap_points, _point, geom_scale, _origin_for_specpoints);

}

if (!(bb.getSnapped() || sn.getSnapped())) {

// We didn't snap at all! Don't update the handle position, just calculate the new transformation

_calcAbsAffineDefault(default_scale);

_desktop->snapindicator->remove_snaptarget();

} else if (bb.getSnapped() && !bb.isOtherSnapBetter(sn, false)) {

// We snapped the bbox (which is either visual or geometric)

_desktop->snapindicator->set_new_snaptarget(bb);

default_scale = Geom::Scale(bb.getTransformation());

// Calculate the new transformation and update the handle position

pt = _calcAbsAffineDefault(default_scale);

} else {

_desktop->snapindicator->set_new_snaptarget(sn);

// We snapped the special points (e.g. nodes), which are not at the visual bbox

// The handle location however (pt) might however be at the visual bbox, so we

// will have to calculate pt taking the stroke width into account

geom_scale = Geom::Scale(sn.getTransformation());

pt = _calcAbsAffineGeom(geom_scale);

}

m.unSetup();

}

/* Status text */

_message_context.setF(Inkscape::IMMEDIATE_MESSAGE,

_("<b>Scale</b>: %0.2f%% x %0.2f%%; with <b>Ctrl</b> to lock ratio"),

100 * _absolute_affine[0], 100 * _absolute_affine[3]);

return TRUE;

}

gboolean Inkscape::SelTrans::stretchRequest(SPSelTransHandle const &handle, Geom::Point &pt, guint state)

{

Geom::Dim2 axis, perp;

switch (handle.cursor) {

case GDK_TOP_SIDE:

case GDK_BOTTOM_SIDE:

axis = Geom::Y;

perp = Geom::X;

break;

case GDK_LEFT_SIDE:

case GDK_RIGHT_SIDE:

axis = Geom::X;

perp = Geom::Y;

break;

default:

g_assert_not_reached();

return TRUE;

};

// Calculate the scale factors, which can be either visual or geometric

// depending on which type of bbox is currently being used (see preferences -> selector tool)

Geom::Scale default_scale = calcScaleFactors(_point, pt, _origin);

default_scale[perp] = 1;

// Find the scale factors for the geometric bbox

Geom::Point pt_geom = _getGeomHandlePos(pt);

Geom::Scale geom_scale = calcScaleFactors(_point_geom, pt_geom, _origin_for_specpoints);

geom_scale[perp] = 1;

_absolute_affine = Geom::identity(); //Initialize the scaler

if (state & GDK_MOD1_MASK) { // stretch by an integer multiplier/divider

if (fabs(default_scale[axis]) > 1) {

default_scale[axis] = round(default_scale[axis]);

} else if (default_scale[axis] != 0) {

default_scale[axis] = 1/round(1/(MIN(default_scale[axis], 10)));

}

// Calculate the new transformation and update the handle position

pt = _calcAbsAffineDefault(default_scale);

// When stretching by an integer, snapping is not needed

} else {

// In all other cases we should try to snap now

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

m.setup(_desktop, false, _items_const);

Inkscape::SnappedPoint bb, sn;

g_assert(bb.getSnapped() == false); // Check initialization to catch any regression

bool symmetrical = state & GDK_CONTROL_MASK;

bb = m.constrainedSnapStretch(_bbox_points, _point, Geom::Coord(default_scale[axis]), _origin_for_bboxpoints, Geom::Dim2(axis), symmetrical);

sn = m.constrainedSnapStretch(_snap_points, _point, Geom::Coord(geom_scale[axis]), _origin_for_specpoints, Geom::Dim2(axis), symmetrical);

if (bb.getSnapped()) {

// We snapped the bbox (which is either visual or geometric)

default_scale[axis] = bb.getTransformation()[axis];

}

if (sn.getSnapped()) {

geom_scale[axis] = sn.getTransformation()[axis];

}

if (symmetrical) {

// on ctrl, apply symmetrical scaling instead of stretching

// Preserve aspect ratio, but never flip in the dimension not being edited (by using fabs())

default_scale[perp] = fabs(default_scale[axis]);

geom_scale[perp] = fabs(geom_scale[axis]);

}

if (!(bb.getSnapped() || sn.getSnapped())) {

// We didn't snap at all! Don't update the handle position, just calculate the new transformation

_calcAbsAffineDefault(default_scale);

_desktop->snapindicator->remove_snaptarget();

} else if (bb.getSnapped() && !bb.isOtherSnapBetter(sn, false)) {

_desktop->snapindicator->set_new_snaptarget(bb);

// Calculate the new transformation and update the handle position

pt = _calcAbsAffineDefault(default_scale);

} else {

_desktop->snapindicator->set_new_snaptarget(sn);

// We snapped the special points (e.g. nodes), which are not at the visual bbox

// The handle location however (pt) might however be at the visual bbox, so we

// will have to calculate pt taking the stroke width into account

pt = _calcAbsAffineGeom(geom_scale);

}

m.unSetup();

}

// status text

_message_context.setF(Inkscape::IMMEDIATE_MESSAGE,

_("<b>Scale</b>: %0.2f%% x %0.2f%%; with <b>Ctrl</b> to lock ratio"),

100 * _absolute_affine[0], 100 * _absolute_affine[3]);

return TRUE;

}

gboolean Inkscape::SelTrans::request(SPSelTransHandle const &handle, Geom::Point &pt, guint state)

{

// These _should_ be in the handstype somewhere instead

switch (handle.type) {

case HANDLE_SCALE:

return scaleRequest(pt, state);

case HANDLE_STRETCH:

return stretchRequest(handle, pt, state);

case HANDLE_SKEW:

return skewRequest(handle, pt, state);

case HANDLE_ROTATE:

return rotateRequest(pt, state);

case HANDLE_CENTER:

return centerRequest(pt, state);

}

return FALSE;

}

gboolean Inkscape::SelTrans::skewRequest(SPSelTransHandle const &handle, Geom::Point &pt, guint state)

{

/* When skewing (or rotating):

Geom::Dim2 dim_a;

Geom::Dim2 dim_b;

switch (handle.cursor) {

case GDK_SB_H_DOUBLE_ARROW:

dim_a = Geom::Y;

dim_b = Geom::X;

break;

case GDK_SB_V_DOUBLE_ARROW:

dim_a = Geom::X;

dim_b = Geom::Y;

break;

default:

g_assert_not_reached();

abort();

break;

}

Geom::Point const initial_delta = _point - _origin;

if (fabs(initial_delta[dim_a]) < 1e-15) {

return false;

}

// Calculate the scale factors, which can be either visual or geometric

// depending on which type of bbox is currently being used (see preferences -> selector tool)

Geom::Scale scale = calcScaleFactors(_point, pt, _origin, false);

Geom::Scale skew = calcScaleFactors(_point, pt, _origin, true);

scale[dim_b] = 1;

skew[dim_b] = 1;

if (fabs(scale[dim_a]) < 1) {

// Prevent shrinking of the selected object, while allowing mirroring

scale[dim_a] = sign(scale[dim_a]);

} else {

// Allow expanding of the selected object by integer multiples

scale[dim_a] = floor(scale[dim_a] + 0.5);

}

double radians = atan(skew[dim_a] / scale[dim_a]);

if (state & GDK_CONTROL_MASK) {

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

// Snap to defined angle increments

int snaps = prefs->getInt("/options/rotationsnapsperpi/value", 12);

if (snaps) {

double sections = floor(radians * snaps / M_PI + .5);

if (fabs(sections) >= snaps / 2) {

sections = sign(sections) * (snaps / 2 - 1);

}

radians = (M_PI / snaps) * sections;

}

skew[dim_a] = tan(radians) * scale[dim_a];

} else {

// Snap to objects, grids, guides

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

m.setup(_desktop, false, _items_const);

Geom::Point cvec; cvec[dim_b] = 1.;

Inkscape::Snapper::SnapConstraint const constraint(cvec);

// When skewing, we cannot snap the corners of the bounding box, see the comment in "constrainedSnapSkew" for details

Geom::Point const s(skew[dim_a], scale[dim_a]);

Inkscape::SnappedPoint sn = m.constrainedSnapSkew(_snap_points, _point, constraint, s, _origin, Geom::Dim2(dim_b));

if (sn.getSnapped()) {

// We snapped something, so change the skew to reflect it

skew[dim_a] = sn.getTransformation()[0];

_desktop->snapindicator->set_new_snaptarget(sn);

} else {

_desktop->snapindicator->remove_snaptarget();

}

m.unSetup();

}

// Update the handle position

pt[dim_b] = initial_delta[dim_a] * skew[dim_a] + _point[dim_b];

pt[dim_a] = initial_delta[dim_a] * scale[dim_a] + _origin[dim_a];

// Calculate the relative affine

_relative_affine = Geom::identity();

_relative_affine[2*dim_a + dim_a] = (pt[dim_a] - _origin[dim_a]) / initial_delta[dim_a];

_relative_affine[2*dim_a + (dim_b)] = (pt[dim_b] - _point[dim_b]) / initial_delta[dim_a];

_relative_affine[2*(dim_b) + (dim_a)] = 0;

_relative_affine[2*(dim_b) + (dim_b)] = 1;

for (int i = 0; i < 2; i++) {

if (fabs(_relative_affine[3*i]) < 1e-15) {

_relative_affine[3*i] = 1e-15;

}

}

// Update the status text

double degrees = mod360symm(Geom::rad_to_deg(radians));

_message_context.setF(Inkscape::IMMEDIATE_MESSAGE,

// TRANSLATORS: don't modify the first ";"

// (it will NOT be displayed as ";" - only the second one will be)

_("<b>Skew</b>: %0.2f&#176;; with <b>Ctrl</b> to snap angle"),

degrees);

return TRUE;

}

gboolean Inkscape::SelTrans::rotateRequest(Geom::Point &pt, guint state)

{

/* When rotating (or skewing):

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

int snaps = prefs->getInt("/options/rotationsnapsperpi/value", 12);

// rotate affine in rotate

Geom::Point const d1 = _point - _origin;

Geom::Point const d2 = pt - _origin;

Geom::Coord const h1 = Geom::L2(d1); // initial radius

if (h1 < 1e-15) return FALSE;

Geom::Point q1 = d1 / h1; // normalized initial vector to handle

Geom::Coord const h2 = Geom::L2(d2); // new radius

if (fabs(h2) < 1e-15) return FALSE;

Geom::Point q2 = d2 / h2; // normalized new vector to handle

Geom::Rotate r1(q1);

Geom::Rotate r2(q2);

double radians = atan2(Geom::dot(Geom::rot90(d1), d2), Geom::dot(d1, d2));;

if (state & GDK_CONTROL_MASK) {

// Snap to defined angle increments

double cos_t = Geom::dot(q1, q2);

double sin_t = Geom::dot(Geom::rot90(q1), q2);

radians = atan2(sin_t, cos_t);

if (snaps) {

radians = ( M_PI / snaps ) * floor( radians * snaps / M_PI + .5 );

}

r1 = Geom::Rotate(0); //q1 = Geom::Point(1, 0);

r2 = Geom::Rotate(radians); //q2 = Geom::Point(cos(radians), sin(radians));

} else {

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

m.setup(_desktop, false, _items_const);

// When rotating, we cannot snap the corners of the bounding box, see the comment in "constrainedSnapRotate" for details

Inkscape::SnappedPoint sn = m.constrainedSnapRotate(_snap_points, _point, radians, _origin);

m.unSetup();

if (sn.getSnapped()) {

_desktop->snapindicator->set_new_snaptarget(sn);

// We snapped something, so change the rotation to reflect it

radians = sn.getTransformation()[0];

r1 = Geom::Rotate(0);

r2 = Geom::Rotate(radians);

} else {

_desktop->snapindicator->remove_snaptarget();

}

}

// Calculate the relative affine

_relative_affine = r2 * r1.inverse();

// Update the handle position

pt = _point * Geom::Translate(-_origin) * _relative_affine * Geom::Translate(_origin);

// Update the status text

double degrees = mod360symm(Geom::rad_to_deg(radians));

_message_context.setF(Inkscape::IMMEDIATE_MESSAGE,

// TRANSLATORS: don't modify the first ";"

// (it will NOT be displayed as ";" - only the second one will be)

_("<b>Rotate</b>: %0.2f&#176;; with <b>Ctrl</b> to snap angle"), degrees);

return TRUE;

}

gboolean Inkscape::SelTrans::centerRequest(Geom::Point &pt, guint state)

{

// When dragging the transformation center while multiple items have been selected, then those

// items will share a single center. While dragging that single center, it should never snap to the

// centers of any of the selected objects. Therefore we will have to pass the list of selected items

// to the snapper, to avoid self-snapping of the rotation center

GSList *items = (GSList *) const_cast<Selection *>(_selection)->itemList();

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

m.setup(_desktop);

m.setRotationCenterSource(items);

if (state & GDK_CONTROL_MASK) { // with Ctrl, constrain to axes

std::vector<Inkscape::Snapper::SnapConstraint> constraints;

constraints.push_back(Inkscape::Snapper::SnapConstraint(_point, Geom::Point(1, 0)));

constraints.push_back(Inkscape::Snapper::SnapConstraint(_point, Geom::Point(0, 1)));

Inkscape::SnappedPoint sp = m.multipleConstrainedSnaps(Inkscape::SnapCandidatePoint(pt, Inkscape::SNAPSOURCE_ROTATION_CENTER), constraints, state & GDK_SHIFT_MASK);

pt = sp.getPoint();

}

else {

if (!(state & GDK_SHIFT_MASK)) { // Shift disables snapping

m.freeSnapReturnByRef(pt, Inkscape::SNAPSOURCE_ROTATION_CENTER);

}

}

m.unSetup();

// status text

Inkscape::Util::Quantity x_q = Inkscape::Util::Quantity(pt[Geom::X], "px");

Inkscape::Util::Quantity y_q = Inkscape::Util::Quantity(pt[Geom::Y], "px");

GString *xs = g_string_new(x_q.string(_desktop->namedview->doc_units).c_str());

GString *ys = g_string_new(y_q.string(_desktop->namedview->doc_units).c_str());

_message_context.setF(Inkscape::NORMAL_MESSAGE, _("Move <b>center</b> to %s, %s"), xs->str, ys->str);

g_string_free(xs, FALSE);

g_string_free(ys, FALSE);

return TRUE;

}

void Inkscape::SelTrans::stretch(SPSelTransHandle const &/*handle*/, Geom::Point &/*pt*/, guint /*state*/)

{

transform(_absolute_affine, Geom::Point(0, 0)); // we have already accounted for origin, so pass 0,0

}

void Inkscape::SelTrans::scale(Geom::Point &/*pt*/, guint /*state*/)

{

transform(_absolute_affine, Geom::Point(0, 0)); // we have already accounted for origin, so pass 0,0

}

void Inkscape::SelTrans::skew(SPSelTransHandle const &/*handle*/, Geom::Point &/*pt*/, guint /*state*/)

{

transform(_relative_affine, _origin);

}

void Inkscape::SelTrans::rotate(Geom::Point &/*pt*/, guint /*state*/)

{

transform(_relative_affine, _origin);

}

void Inkscape::SelTrans::moveTo(Geom::Point const &xy, guint state)

{

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

/* The amount that we've moved by during this drag */

Geom::Point dxy = xy - _point;

bool const alt = (state & GDK_MOD1_MASK);

bool const control = (state & GDK_CONTROL_MASK);

bool const shift = (state & GDK_SHIFT_MASK);

if (alt) {

// Alt pressed means: move only by integer multiples of the grid spacing

if (control) { // ... if also constrained to the orthogonal axes

if (fabs(dxy[Geom::X]) > fabs(dxy[Geom::Y])) {

dxy[Geom::Y] = 0;

} else {

dxy[Geom::X] = 0;

}

}

m.setup(_desktop, true, _items_const);

dxy = m.multipleOfGridPitch(dxy, _point);

m.unSetup();

} else if (shift) {

if (control) { // shift & control: constrained movement without snapping

if (fabs(dxy[Geom::X]) > fabs(dxy[Geom::Y])) {

dxy[Geom::Y] = 0;

} else {

dxy[Geom::X] = 0;

}

}

} else { //!shift: with snapping

/* We're snapping to things, possibly with a constraint to horizontal or

m.setup(_desktop, false, _items_const);

/* This will be our list of possible translations */

std::list<Inkscape::SnappedPoint> s;

if (control) { // constrained movement with snapping

/* Snap to things, and also constrain to horizontal or vertical movement */

unsigned int dim = fabs(dxy[Geom::X]) > fabs(dxy[Geom::Y]) ? Geom::X : Geom::Y;

// When doing a constrained translation, all points will move in the same direction, i.e.

// either horizontally or vertically. Therefore we only have to specify the direction of

// the constraint-line once. The constraint lines are parallel, but might not be colinear.

// Therefore we will have to set the point through which the constraint-line runs

// individually for each point to be snapped; this will be handled however by _snapTransformed()

Geom::Point cvec; cvec[dim] = 1.;

s.push_back(m.constrainedSnapTranslate(_bbox_points,

_point,

Inkscape::Snapper::SnapConstraint(cvec),

dxy));

s.push_back(m.constrainedSnapTranslate(_snap_points,

_point,

Inkscape::Snapper::SnapConstraint(cvec),

dxy));

} else { // !control

// Let's leave this timer code here for a while. I'll probably need it in the near future (Diederik van Lierop)

/* GTimeVal starttime;

/* Snap to things with no constraint */

s.push_back(m.freeSnapTranslate(_bbox_points, _point, dxy));

s.push_back(m.freeSnapTranslate(_snap_points, _point, dxy));

/*g_get_current_time(&endtime);

}

m.unSetup();

/* Pick one */

Inkscape::SnappedPoint best_snapped_point;

for (std::list<Inkscape::SnappedPoint>::const_iterator i = s.begin(); i != s.end(); ++i) {

if (i->getSnapped()) {

if (best_snapped_point.isOtherSnapBetter(*i, true)) {

best_snapped_point = *i;

dxy = i->getTransformation();

}

}

}

if (best_snapped_point.getSnapped()) {

_desktop->snapindicator->set_new_snaptarget(best_snapped_point);

} else {

// We didn't snap, so remove any previous snap indicator

_desktop->snapindicator->remove_snaptarget();

if (control) {

// If we didn't snap, then we should still constrain horizontally or vertically

// (When we did snap, then this constraint has already been enforced by

// calling constrainedSnapTranslate() above)

if (fabs(dxy[Geom::X]) > fabs(dxy[Geom::Y])) {

dxy[Geom::Y] = 0;

} else {

dxy[Geom::X] = 0;

}

}

}

}

Geom::Affine const move((Geom::Translate(dxy)));

Geom::Point const norm(0, 0);

transform(move, norm);

// status text

Inkscape::Util::Quantity x_q = Inkscape::Util::Quantity(dxy[Geom::X], "px");

Inkscape::Util::Quantity y_q = Inkscape::Util::Quantity(dxy[Geom::Y], "px");

GString *xs = g_string_new(x_q.string(_desktop->namedview->doc_units).c_str());

GString *ys = g_string_new(y_q.string(_desktop->namedview->doc_units).c_str());

_message_context.setF(Inkscape::NORMAL_MESSAGE, _("<b>Move</b> by %s, %s; with <b>Ctrl</b> to restrict to horizontal/vertical; with <b>Shift</b> to disable snapping"), xs->str, ys->str);

g_string_free(xs, TRUE);

g_string_free(ys, TRUE);

}

Geom::Point Inkscape::SelTrans::_getGeomHandlePos(Geom::Point const &visual_handle_pos)

{

if ( _snap_bbox_type == SPItem::GEOMETRIC_BBOX) {

// When the selector tool is using geometric bboxes, then the handle is already

// located at one of the geometric bbox corners

return visual_handle_pos;

}

if (!_geometric_bbox) {

//_getGeomHandlePos() can only be used after _geometric_bbox has been defined!

return visual_handle_pos;

}

// Using the Geom::Rect constructor below ensures that "min() < max()", which is important

// because this will also hold for _bbox, and which is required for get_scale_transform_for_stroke()

Geom::Rect new_bbox = Geom::Rect(_origin_for_bboxpoints, visual_handle_pos); // new visual bounding box

// Please note that the new_bbox might in fact be just a single line, for example when stretching (in

// which case the handle and origin will be aligned vertically or horizontally)

Geom::Point normalized_handle_pos = (visual_handle_pos - new_bbox.min()) * Geom::Scale(new_bbox.dimensions()).inverse();

// Calculate the absolute affine while taking into account the scaling of the stroke width

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

bool transform_stroke = prefs->getBool("/options/transform/stroke", true);

bool preserve = prefs->getBool("/options/preservetransform/value", false);

Geom::Affine abs_affine = get_scale_transform_for_uniform_stroke (*_bbox, _strokewidth, _strokewidth, transform_stroke, preserve,

new_bbox.min()[Geom::X], new_bbox.min()[Geom::Y], new_bbox.max()[Geom::X], new_bbox.max()[Geom::Y]);

// Calculate the scaled geometrical bbox

Geom::Rect new_geom_bbox = Geom::Rect(_geometric_bbox->min() * abs_affine, _geometric_bbox->max() * abs_affine);

// Find the location of the handle on this new geometrical bbox

return normalized_handle_pos * Geom::Scale(new_geom_bbox.dimensions()) + new_geom_bbox.min(); //new position of the geometric handle

}

Geom::Scale Inkscape::calcScaleFactors(Geom::Point const &initial_point, Geom::Point const &new_point, Geom::Point const &origin, bool const skew)

{

// Work out the new scale factors for the bbox

Geom::Point const initial_delta = initial_point - origin;

Geom::Point const new_delta = new_point - origin;

Geom::Point const offset = new_point - initial_point;

Geom::Scale scale(1, 1);

for ( unsigned int i = 0 ; i < 2 ; i++ ) {

if ( fabs(initial_delta[i]) > 1e-6 ) {

if (skew) {

scale[i] = offset[1-i] / initial_delta[i];

} else {

scale[i] = new_delta[i] / initial_delta[i];

}

}

}

return scale;

}

Geom::Point Inkscape::SelTrans::_calcAbsAffineDefault(Geom::Scale const default_scale)

{

Geom::Affine abs_affine = Geom::Translate(-_origin) * Geom::Affine(default_scale) * Geom::Translate(_origin);

Geom::Point new_bbox_min = _visual_bbox->min() * abs_affine;

Geom::Point new_bbox_max = _visual_bbox->max() * abs_affine;

bool transform_stroke = false;

bool preserve = false;

gdouble stroke_x = 0;

gdouble stroke_y = 0;

if ( _snap_bbox_type != SPItem::GEOMETRIC_BBOX) {

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

transform_stroke = prefs->getBool("/options/transform/stroke", true);

preserve = prefs->getBool("/options/preservetransform/value", false);

stroke_x = _visual_bbox->width() - _geometric_bbox->width();

stroke_y = _visual_bbox->height() - _geometric_bbox->height();

}

_absolute_affine = get_scale_transform_for_uniform_stroke (*_visual_bbox, stroke_x, stroke_y, transform_stroke, preserve,

new_bbox_min[Geom::X], new_bbox_min[Geom::Y], new_bbox_max[Geom::X], new_bbox_max[Geom::Y]);

// return the new handle position

return ( _point - _origin ) * default_scale + _origin;

}

Geom::Point Inkscape::SelTrans::_calcAbsAffineGeom(Geom::Scale const geom_scale)

{

_relative_affine = Geom::Affine(geom_scale);

_absolute_affine = Geom::Translate(-_origin_for_specpoints) * _relative_affine * Geom::Translate(_origin_for_specpoints);

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

bool const transform_stroke = prefs->getBool("/options/transform/stroke", true);

if (_geometric_bbox) {

Geom::Rect visual_bbox = get_visual_bbox(_geometric_bbox, _absolute_affine, _strokewidth, transform_stroke);

// return the new handle position

return visual_bbox.min() + visual_bbox.dimensions() * Geom::Scale(_handle_x, _handle_y);

}

// Fall back scenario, in case we don't have a geometric bounding box at hand;

// (Due to some bugs related to bounding boxes having at least one zero dimension; For more details

// see https://bugs.launchpad.net/inkscape/+bug/318726)

g_warning("No geometric bounding box has been calculated; this is a bug that needs fixing!");

return _calcAbsAffineDefault(geom_scale); // this is bogus, but we must return _something_

}

void Inkscape::SelTrans::_keepClosestPointOnly(Geom::Point const &p)

{

SnapManager const &m = _desktop->namedview->snap_manager;

// If we're not going to snap nodes, then we might just as well get rid of their snappoints right away

if (!(m.snapprefs.isTargetSnappable(SNAPTARGET_NODE_CATEGORY, SNAPTARGET_OTHERS_CATEGORY) || m.snapprefs.isAnyDatumSnappable())) {

_snap_points.clear();

}

// If we're not going to snap bounding boxes, then we might just as well get rid of their snappoints right away

if (!m.snapprefs.isTargetSnappable(SNAPTARGET_BBOX_CATEGORY)) {

_bbox_points.clear();

}

_all_snap_sources_sorted = _snap_points;

_all_snap_sources_sorted.insert(_all_snap_sources_sorted.end(), _bbox_points.begin(), _bbox_points.end());

// Calculate and store the distance to the reference point for each snap candidate point

for(std::vector<Inkscape::SnapCandidatePoint>::iterator i = _all_snap_sources_sorted.begin(); i != _all_snap_sources_sorted.end(); ++i) {

(*i).setDistance(Geom::L2((*i).getPoint() - p));

}

// Sort them ascending, using the distance calculated above as the single criteria

std::sort(_all_snap_sources_sorted.begin(), _all_snap_sources_sorted.end());

// Now get the closest snap source

_snap_points.clear();

_bbox_points.clear();

if (!_all_snap_sources_sorted.empty()) {

_all_snap_sources_iter = _all_snap_sources_sorted.begin();

if (_all_snap_sources_sorted.front().getSourceType() & SNAPSOURCE_BBOX_CATEGORY) {

_bbox_points.push_back(_all_snap_sources_sorted.front());

} else {

_snap_points.push_back(_all_snap_sources_sorted.front());

}

}

}

void Inkscape::SelTrans::getNextClosestPoint(bool reverse)

{

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

if (prefs->getBool("/options/snapclosestonly/value", false)) {

if (!_all_snap_sources_sorted.empty()) {

if (reverse) { // Shift-tab will find a closer point

if (_all_snap_sources_iter == _all_snap_sources_sorted.begin()) {

_all_snap_sources_iter = _all_snap_sources_sorted.end();

}

--_all_snap_sources_iter;

} else { // Tab will find a point further away

++_all_snap_sources_iter;

if (_all_snap_sources_iter == _all_snap_sources_sorted.end()) {

_all_snap_sources_iter = _all_snap_sources_sorted.begin();

}

}

_snap_points.clear();

_bbox_points.clear();

if ((*_all_snap_sources_iter).getSourceType() & SNAPSOURCE_BBOX_CATEGORY) {

_bbox_points.push_back(*_all_snap_sources_iter);

} else {

_snap_points.push_back(*_all_snap_sources_iter);

}

}

}

}