#ifdef HAVE_CONFIG_H

# include "config.h"

#endif

#include "display/curve.h"

#include <2geom/rect.h>

#include "inkscape.h"

#include "document.h"

#include "attributes.h"

#include "style.h"

#include "sp-rect.h"

#include <glibmm/i18n.h>

#include "xml/repr.h"

#include "sp-guide.h"

#include "preferences.h"

#define noRECT_VERBOSE

static void sp_rect_build(SPObject *object, SPDocument *document, Inkscape::XML::Node *repr);

static void sp_rect_set(SPObject *object, unsigned key, gchar const *value);

static void sp_rect_update(SPObject *object, SPCtx *ctx, guint flags);

static Inkscape::XML::Node *sp_rect_write(SPObject *object, Inkscape::XML::Document *doc, Inkscape::XML::Node *repr, guint flags);

static gchar *sp_rect_description(SPItem *item);

static Geom::Affine sp_rect_set_transform(SPItem *item, Geom::Affine const &xform);

static void sp_rect_convert_to_guides(SPItem *item);

static void sp_rect_set_shape(SPShape *shape);

static void sp_rect_snappoints(SPItem const *item, std::vector<Inkscape::SnapCandidatePoint> &p, Inkscape::SnapPreferences const *snapprefs);

G_DEFINE_TYPE(SPRect, sp_rect, SP_TYPE_SHAPE);

static void

sp_rect_class_init(SPRectClass *klass)

{

SPObjectClass *sp_object_class = (SPObjectClass *) klass;

SPItemClass *item_class = (SPItemClass *) klass;

SPShapeClass *shape_class = (SPShapeClass *) klass;

sp_object_class->build = sp_rect_build;

sp_object_class->write = sp_rect_write;

sp_object_class->set = sp_rect_set;

sp_object_class->update = sp_rect_update;

item_class->description = sp_rect_description;

item_class->set_transform = sp_rect_set_transform;

item_class->convert_to_guides = sp_rect_convert_to_guides;

item_class->snappoints = sp_rect_snappoints; //override the default sp_shape_snappoints; see sp_rect_snappoints for details

shape_class->set_shape = sp_rect_set_shape;

}

static void

sp_rect_init(SPRect */*rect*/)

{

/* Initializing to zero is automatic */

/* sp_svg_length_unset(&rect->x, SP_SVG_UNIT_NONE, 0.0, 0.0); */

/* sp_svg_length_unset(&rect->y, SP_SVG_UNIT_NONE, 0.0, 0.0); */

/* sp_svg_length_unset(&rect->width, SP_SVG_UNIT_NONE, 0.0, 0.0); */

/* sp_svg_length_unset(&rect->height, SP_SVG_UNIT_NONE, 0.0, 0.0); */

/* sp_svg_length_unset(&rect->rx, SP_SVG_UNIT_NONE, 0.0, 0.0); */

/* sp_svg_length_unset(&rect->ry, SP_SVG_UNIT_NONE, 0.0, 0.0); */

}

static void

sp_rect_build(SPObject *object, SPDocument *document, Inkscape::XML::Node *repr)

{

if ((SP_OBJECT_CLASS(sp_rect_parent_class))->build)

(SP_OBJECT_CLASS(sp_rect_parent_class))->build(object, document, repr);

object->readAttr( "x" );

object->readAttr( "y" );

object->readAttr( "width" );

object->readAttr( "height" );

object->readAttr( "rx" );

object->readAttr( "ry" );

}

static void

sp_rect_set(SPObject *object, unsigned key, gchar const *value)

{

SPRect *rect = SP_RECT(object);

/* fixme: We need real error processing some time */

switch (key) {

case SP_ATTR_X:

rect->x.readOrUnset(value);

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

case SP_ATTR_Y:

rect->y.readOrUnset(value);

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

case SP_ATTR_WIDTH:

if (!rect->width.read(value) || rect->width.value < 0.0) {

rect->width.unset();

}

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

case SP_ATTR_HEIGHT:

if (!rect->height.read(value) || rect->height.value < 0.0) {

rect->height.unset();

}

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

case SP_ATTR_RX:

if (!rect->rx.read(value) || rect->rx.value <= 0.0) {

rect->rx.unset();

}

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

case SP_ATTR_RY:

if (!rect->ry.read(value) || rect->ry.value <= 0.0) {

rect->ry.unset();

}

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

default:

if ((SP_OBJECT_CLASS(sp_rect_parent_class))->set)

(SP_OBJECT_CLASS(sp_rect_parent_class))->set(object, key, value);

break;

}

}

static void

sp_rect_update(SPObject *object, SPCtx *ctx, guint flags)

{

if (flags & (SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_STYLE_MODIFIED_FLAG | SP_OBJECT_VIEWPORT_MODIFIED_FLAG)) {

SPRect *rect = (SPRect *) object;

SPStyle *style = object->style;

SPItemCtx const *ictx = (SPItemCtx const *) ctx;

double const w = ictx->viewport.width();

double const h = ictx->viewport.height();

double const em = style->font_size.computed;

double const ex = 0.5 * em; // fixme: get x height from pango or libnrtype.

rect->x.update(em, ex, w);

rect->y.update(em, ex, h);

rect->width.update(em, ex, w);

rect->height.update(em, ex, h);

rect->rx.update(em, ex, w);

rect->ry.update(em, ex, h);

((SPShape *) object)->setShape();

flags &= ~SP_OBJECT_USER_MODIFIED_FLAG_B; // since we change the description, it's not a "just translation" anymore

}

if ((SP_OBJECT_CLASS(sp_rect_parent_class))->update)

(SP_OBJECT_CLASS(sp_rect_parent_class))->update(object, ctx, flags);

}

static Inkscape::XML::Node *

sp_rect_write(SPObject *object, Inkscape::XML::Document *xml_doc, Inkscape::XML::Node *repr, guint flags)

{

SPRect *rect = SP_RECT(object);

if ((flags & SP_OBJECT_WRITE_BUILD) && !repr) {

repr = xml_doc->createElement("svg:rect");

}

sp_repr_set_svg_double(repr, "width", rect->width.computed);

sp_repr_set_svg_double(repr, "height", rect->height.computed);

if (rect->rx._set) sp_repr_set_svg_double(repr, "rx", rect->rx.computed);

if (rect->ry._set) sp_repr_set_svg_double(repr, "ry", rect->ry.computed);

sp_repr_set_svg_double(repr, "x", rect->x.computed);

sp_repr_set_svg_double(repr, "y", rect->y.computed);

sp_rect_set_shape ((SPShape *) rect); // evaluate SPCurve

if ((SP_OBJECT_CLASS(sp_rect_parent_class))->write)

(SP_OBJECT_CLASS(sp_rect_parent_class))->write(object, xml_doc, repr, flags);

return repr;

}

static gchar *

sp_rect_description(SPItem *item)

{

g_return_val_if_fail(SP_IS_RECT(item), NULL);

return g_strdup(_("<b>Rectangle</b>"));

}

#define C1 0.554

static void

sp_rect_set_shape(SPShape *shape)

{

SPRect *rect = (SPRect *) shape;

if ((rect->height.computed < 1e-18) || (rect->width.computed < 1e-18)) {

SP_SHAPE(rect)->setCurveInsync( NULL, TRUE);

SP_SHAPE(rect)->setCurveBeforeLPE( NULL );

return;

}

SPCurve *c = new SPCurve();

double const x = rect->x.computed;

double const y = rect->y.computed;

double const w = rect->width.computed;

double const h = rect->height.computed;

double const w2 = w / 2;

double const h2 = h / 2;

double const rx = std::min(( rect->rx._set

? rect->rx.computed

: ( rect->ry._set

? rect->ry.computed

: 0.0 ) ),

.5 * rect->width.computed);

double const ry = std::min(( rect->ry._set

? rect->ry.computed

: ( rect->rx._set

? rect->rx.computed

: 0.0 ) ),

.5 * rect->height.computed);

/* TODO: Handle negative rx or ry as per

/* We don't use proper circular/elliptical arcs, but bezier curves can approximate a 90-degree

if ((rx > 1e-18) && (ry > 1e-18)) {

c->moveto(x + rx, y);

if (rx < w2) c->lineto(x + w - rx, y);

c->curveto(x + w - rx * (1 - C1), y, x + w, y + ry * (1 - C1), x + w, y + ry);

if (ry < h2) c->lineto(x + w, y + h - ry);

c->curveto(x + w, y + h - ry * (1 - C1), x + w - rx * (1 - C1), y + h, x + w - rx, y + h);

if (rx < w2) c->lineto(x + rx, y + h);

c->curveto(x + rx * (1 - C1), y + h, x, y + h - ry * (1 - C1), x, y + h - ry);

if (ry < h2) c->lineto(x, y + ry);

c->curveto(x, y + ry * (1 - C1), x + rx * (1 - C1), y, x + rx, y);

} else {

c->moveto(x + 0.0, y + 0.0);

c->lineto(x + w, y + 0.0);

c->lineto(x + w, y + h);

c->lineto(x + 0.0, y + h);

}

c->closepath();

SP_SHAPE(rect)->setCurveInsync( c, TRUE);

SP_SHAPE(rect)->setCurveBeforeLPE( c );

// LPE is not applied because result can generally not be represented as SPRect

c->unref();

}

sp_rect_position_set(SPRect *rect, gdouble x, gdouble y, gdouble width, gdouble height)

{

g_return_if_fail(rect != NULL);

g_return_if_fail(SP_IS_RECT(rect));

rect->x.computed = x;

rect->y.computed = y;

rect->width.computed = width;

rect->height.computed = height;

SP_OBJECT(rect)->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

}

sp_rect_set_rx(SPRect *rect, gboolean set, gdouble value)

{

g_return_if_fail(rect != NULL);

g_return_if_fail(SP_IS_RECT(rect));

rect->rx._set = set;

if (set) rect->rx.computed = value;

SP_OBJECT(rect)->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

}

sp_rect_set_ry(SPRect *rect, gboolean set, gdouble value)

{

g_return_if_fail(rect != NULL);

g_return_if_fail(SP_IS_RECT(rect));

rect->ry._set = set;

if (set) rect->ry.computed = value;

SP_OBJECT(rect)->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

}

static Geom::Affine

sp_rect_set_transform(SPItem *item, Geom::Affine const &xform)

{

SPRect *rect = SP_RECT(item);

/* Calculate rect start in parent coords. */

Geom::Point pos( Geom::Point(rect->x.computed, rect->y.computed) * xform );

/* This function takes care of translation and scaling, we return whatever parts we can't

Geom::Affine ret(Geom::Affine(xform).withoutTranslation());

gdouble const sw = hypot(ret[0], ret[1]);

gdouble const sh = hypot(ret[2], ret[3]);

if (sw > 1e-9) {

ret[0] /= sw;

ret[1] /= sw;

} else {

ret[0] = 1.0;

ret[1] = 0.0;

}

if (sh > 1e-9) {

ret[2] /= sh;

ret[3] /= sh;

} else {

ret[2] = 0.0;

ret[3] = 1.0;

}

/* fixme: Would be nice to preserve units here */

rect->width = rect->width.computed * sw;

rect->height = rect->height.computed * sh;

if (rect->rx._set) {

rect->rx = rect->rx.computed * sw;

}

if (rect->ry._set) {

rect->ry = rect->ry.computed * sh;

}

/* Find start in item coords */

pos = pos * ret.inverse();

rect->x = pos[Geom::X];

rect->y = pos[Geom::Y];

sp_rect_set_shape(rect);

// Adjust stroke width

item->adjust_stroke(sqrt(fabs(sw * sh)));

// Adjust pattern fill

item->adjust_pattern(xform * ret.inverse());

// Adjust gradient fill

item->adjust_gradient(xform * ret.inverse());

item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_STYLE_MODIFIED_FLAG);

return ret;

}

static gdouble

vector_stretch(Geom::Point p0, Geom::Point p1, Geom::Affine xform)

{

if (p0 == p1)

return 0;

return (Geom::distance(p0 * xform, p1 * xform) / Geom::distance(p0, p1));

}

sp_rect_set_visible_rx(SPRect *rect, gdouble rx)

{

if (rx == 0) {

rect->rx.computed = 0;

rect->rx._set = false;

} else {

rect->rx.computed = rx / vector_stretch(

Geom::Point(rect->x.computed + 1, rect->y.computed),

Geom::Point(rect->x.computed, rect->y.computed),

rect->transform);

rect->rx._set = true;

}

SP_OBJECT(rect)->updateRepr();

}

sp_rect_set_visible_ry(SPRect *rect, gdouble ry)

{

if (ry == 0) {

rect->ry.computed = 0;

rect->ry._set = false;

} else {

rect->ry.computed = ry / vector_stretch(

Geom::Point(rect->x.computed, rect->y.computed + 1),

Geom::Point(rect->x.computed, rect->y.computed),

rect->transform);

rect->ry._set = true;

}

SP_OBJECT(rect)->updateRepr();

}

sp_rect_get_visible_rx(SPRect *rect)

{

if (!rect->rx._set)

return 0;

return rect->rx.computed * vector_stretch(

Geom::Point(rect->x.computed + 1, rect->y.computed),

Geom::Point(rect->x.computed, rect->y.computed),

rect->transform);

}

sp_rect_get_visible_ry(SPRect *rect)

{

if (!rect->ry._set)

return 0;

return rect->ry.computed * vector_stretch(

Geom::Point(rect->x.computed, rect->y.computed + 1),

Geom::Point(rect->x.computed, rect->y.computed),

rect->transform);

}

Geom::Rect

sp_rect_get_rect (SPRect *rect)

{

Geom::Point p0 = Geom::Point(rect->x.computed, rect->y.computed);

Geom::Point p2 = Geom::Point(rect->x.computed + rect->width.computed, rect->y.computed + rect->height.computed);

return Geom::Rect(p0, p2);

}

sp_rect_compensate_rxry(SPRect *rect, Geom::Affine xform)

{

if (rect->rx.computed == 0 && rect->ry.computed == 0)

return; // nothing to compensate

// test unit vectors to find out compensation:

Geom::Point c(rect->x.computed, rect->y.computed);

Geom::Point cx = c + Geom::Point(1, 0);

Geom::Point cy = c + Geom::Point(0, 1);

// apply previous transform if any

c *= rect->transform;

cx *= rect->transform;

cy *= rect->transform;

// find out stretches that we need to compensate

gdouble eX = vector_stretch(cx, c, xform);

gdouble eY = vector_stretch(cy, c, xform);

// If only one of the radii is set, set both radii so they have the same visible length

// This is needed because if we just set them the same length in SVG, they might end up unequal because of transform

if ((rect->rx._set && !rect->ry._set) || (rect->ry._set && !rect->rx._set)) {

gdouble r = MAX(rect->rx.computed, rect->ry.computed);

rect->rx.computed = r / eX;

rect->ry.computed = r / eY;

} else {

rect->rx.computed = rect->rx.computed / eX;

rect->ry.computed = rect->ry.computed / eY;

}

// Note that a radius may end up larger than half-side if the rect is scaled down;

// that's ok because this preserves the intended radii in case the rect is enlarged again,

// and set_shape will take care of trimming too large radii when generating d=

rect->rx._set = rect->ry._set = true;

}

sp_rect_set_visible_width(SPRect *rect, gdouble width)

{

rect->width.computed = width / vector_stretch(

Geom::Point(rect->x.computed + 1, rect->y.computed),

Geom::Point(rect->x.computed, rect->y.computed),

rect->transform);

rect->width._set = true;

SP_OBJECT(rect)->updateRepr();

}

sp_rect_set_visible_height(SPRect *rect, gdouble height)

{

rect->height.computed = height / vector_stretch(

Geom::Point(rect->x.computed, rect->y.computed + 1),

Geom::Point(rect->x.computed, rect->y.computed),

rect->transform);

rect->height._set = true;

SP_OBJECT(rect)->updateRepr();

}

sp_rect_get_visible_width(SPRect *rect)

{

if (!rect->width._set)

return 0;

return rect->width.computed * vector_stretch(

Geom::Point(rect->x.computed + 1, rect->y.computed),

Geom::Point(rect->x.computed, rect->y.computed),

rect->transform);

}

sp_rect_get_visible_height(SPRect *rect)

{

if (!rect->height._set)

return 0;

return rect->height.computed * vector_stretch(

Geom::Point(rect->x.computed, rect->y.computed + 1),

Geom::Point(rect->x.computed, rect->y.computed),

rect->transform);

}

static void sp_rect_snappoints(SPItem const *item, std::vector<Inkscape::SnapCandidatePoint> &p, Inkscape::SnapPreferences const *snapprefs)

{

/* This method overrides sp_shape_snappoints, which is the default for any shape. The default method

g_assert(item != NULL);

g_assert(SP_IS_RECT(item));

SPRect *rect = SP_RECT(item);

Geom::Affine const i2dt (item->i2dt_affine ());

Geom::Point p0 = Geom::Point(rect->x.computed, rect->y.computed) * i2dt;

Geom::Point p1 = Geom::Point(rect->x.computed, rect->y.computed + rect->height.computed) * i2dt;

Geom::Point p2 = Geom::Point(rect->x.computed + rect->width.computed, rect->y.computed + rect->height.computed) * i2dt;

Geom::Point p3 = Geom::Point(rect->x.computed + rect->width.computed, rect->y.computed) * i2dt;

if (snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_RECT_CORNER)) {

p.push_back(Inkscape::SnapCandidatePoint(p0, Inkscape::SNAPSOURCE_RECT_CORNER, Inkscape::SNAPTARGET_RECT_CORNER));

p.push_back(Inkscape::SnapCandidatePoint(p1, Inkscape::SNAPSOURCE_RECT_CORNER, Inkscape::SNAPTARGET_RECT_CORNER));

p.push_back(Inkscape::SnapCandidatePoint(p2, Inkscape::SNAPSOURCE_RECT_CORNER, Inkscape::SNAPTARGET_RECT_CORNER));

p.push_back(Inkscape::SnapCandidatePoint(p3, Inkscape::SNAPSOURCE_RECT_CORNER, Inkscape::SNAPTARGET_RECT_CORNER));

}

if (snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_LINE_MIDPOINT)) {

p.push_back(Inkscape::SnapCandidatePoint((p0 + p1)/2, Inkscape::SNAPSOURCE_LINE_MIDPOINT, Inkscape::SNAPTARGET_LINE_MIDPOINT));

p.push_back(Inkscape::SnapCandidatePoint((p1 + p2)/2, Inkscape::SNAPSOURCE_LINE_MIDPOINT, Inkscape::SNAPTARGET_LINE_MIDPOINT));

p.push_back(Inkscape::SnapCandidatePoint((p2 + p3)/2, Inkscape::SNAPSOURCE_LINE_MIDPOINT, Inkscape::SNAPTARGET_LINE_MIDPOINT));

p.push_back(Inkscape::SnapCandidatePoint((p3 + p0)/2, Inkscape::SNAPSOURCE_LINE_MIDPOINT, Inkscape::SNAPTARGET_LINE_MIDPOINT));

}

if (snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_OBJECT_MIDPOINT)) {

p.push_back(Inkscape::SnapCandidatePoint((p0 + p2)/2, Inkscape::SNAPSOURCE_OBJECT_MIDPOINT, Inkscape::SNAPTARGET_OBJECT_MIDPOINT));

}

}

sp_rect_convert_to_guides(SPItem *item) {

SPRect *rect = SP_RECT(item);

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

if (!prefs->getBool("/tools/shapes/rect/convertguides", true)) {

rect->convert_to_guides();

return;

}

std::list<std::pair<Geom::Point, Geom::Point> > pts;

Geom::Affine const i2dt(rect->i2dt_affine());

Geom::Point A1(Geom::Point(rect->x.computed, rect->y.computed) * i2dt);

Geom::Point A2(Geom::Point(rect->x.computed, rect->y.computed + rect->height.computed) * i2dt);

Geom::Point A3(Geom::Point(rect->x.computed + rect->width.computed, rect->y.computed + rect->height.computed) * i2dt);

Geom::Point A4(Geom::Point(rect->x.computed + rect->width.computed, rect->y.computed) * i2dt);

pts.push_back(std::make_pair(A1, A2));

pts.push_back(std::make_pair(A2, A3));

pts.push_back(std::make_pair(A3, A4));

pts.push_back(std::make_pair(A4, A1));

sp_guide_pt_pairs_to_guides(item->document, pts);

}