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Diffstat (limited to '')
| -rw-r--r-- | src/object/sp-item.cpp | 1880 |
1 files changed, 1880 insertions, 0 deletions
diff --git a/src/object/sp-item.cpp b/src/object/sp-item.cpp new file mode 100644 index 0000000..9d28286 --- /dev/null +++ b/src/object/sp-item.cpp @@ -0,0 +1,1880 @@ +// SPDX-License-Identifier: GPL-2.0-or-later +/* + * Authors: + * Lauris Kaplinski <lauris@kaplinski.com> + * bulia byak <buliabyak@users.sf.net> + * Johan Engelen <j.b.c.engelen@ewi.utwente.nl> + * Abhishek Sharma + * Jon A. Cruz <jon@joncruz.org> + * + * Copyright (C) 2001-2006 authors + * Copyright (C) 2001 Ximian, Inc. + * + * Released under GNU GPL v2+, read the file 'COPYING' for more information. + */ + +#include "sp-item.h" + +#include <glibmm/i18n.h> + +#include "bad-uri-exception.h" +#include "helper/geom.h" +#include "svg/svg.h" +#include "svg/svg-color.h" +#include "print.h" +#include "display/curve.h" +#include "display/drawing-item.h" +#include "display/drawing-pattern.h" +#include "attributes.h" +#include "document.h" + +#include "inkscape.h" +#include "desktop.h" +#include "gradient-chemistry.h" +#include "conn-avoid-ref.h" +#include "conditions.h" +#include "filter-chemistry.h" + +#include "sp-clippath.h" +#include "sp-defs.h" +#include "sp-desc.h" +#include "sp-guide.h" +#include "sp-hatch.h" +#include "sp-mask.h" +#include "sp-pattern.h" +#include "sp-rect.h" +#include "sp-root.h" +#include "sp-switch.h" +#include "sp-text.h" +#include "sp-textpath.h" +#include "sp-title.h" +#include "sp-use.h" + +#include "style.h" +#include "display/nr-filter.h" +#include "snap-preferences.h" +#include "snap-candidate.h" + +#include "extract-uri.h" +#include "live_effects/lpeobject.h" +#include "live_effects/effect.h" +#include "live_effects/lpeobject-reference.h" + +#include "util/units.h" + +#define noSP_ITEM_DEBUG_IDLE + +//#define OBJECT_TRACE + +SPItemView::SPItemView(unsigned flags, unsigned key, DrawingItemPtr<Inkscape::DrawingItem> drawingitem) + : flags(flags) + , key(key) + , drawingitem(std::move(drawingitem)) {} + +SPItem::SPItem() +{ + sensitive = TRUE; + bbox_valid = FALSE; + + _highlightColor = 0; + transform_center_x = 0; + transform_center_y = 0; + + freeze_stroke_width = false; + _is_evaluated = true; + _evaluated_status = StatusUnknown; + + transform = Geom::identity(); + // doc_bbox = Geom::OptRect(); + + clip_ref = nullptr; + mask_ref = nullptr; + + style->signal_fill_ps_changed.connect ([this] (auto old_obj, auto obj) { fill_ps_ref_changed (old_obj, obj); }); + style->signal_stroke_ps_changed.connect([this] (auto old_obj, auto obj) { stroke_ps_ref_changed(old_obj, obj); }); + style->signal_filter_changed.connect ([this] (auto old_obj, auto obj) { filter_ref_changed (old_obj, obj); }); + + avoidRef = nullptr; +} + +SPItem::~SPItem() = default; + +SPClipPath *SPItem::getClipObject() const +{ + return clip_ref ? clip_ref->getObject() : nullptr; +} + +SPMask *SPItem::getMaskObject() const +{ + return mask_ref ? mask_ref->getObject() : nullptr; +} + +SPMaskReference &SPItem::getMaskRef() +{ + if (!mask_ref) { + mask_ref = new SPMaskReference(this); + mask_ref->changedSignal().connect([this] (auto old_obj, auto obj) { mask_ref_changed(old_obj, obj); }); + } + + return *mask_ref; +} + +SPClipPathReference &SPItem::getClipRef() +{ + if (!clip_ref) { + clip_ref = new SPClipPathReference(this); + clip_ref->changedSignal().connect([this] (auto old_obj, auto obj) { clip_ref_changed(old_obj, obj); }); + } + + return *clip_ref; +} + +SPAvoidRef &SPItem::getAvoidRef() +{ + if (!avoidRef) { + avoidRef = new SPAvoidRef(this); + } + return *avoidRef; +} + +bool SPItem::isVisibleAndUnlocked() const { + return !isHidden() && !isLocked(); +} + +bool SPItem::isVisibleAndUnlocked(unsigned display_key) const { + return !isHidden(display_key) && !isLocked(); +} + +bool SPItem::isLocked() const { + for (SPObject const *o = this; o != nullptr; o = o->parent) { + SPItem const *item = cast<SPItem>(o); + if (item && !(item->sensitive)) { + return true; + } + } + return false; +} + +void SPItem::setLocked(bool locked) { + setAttribute("sodipodi:insensitive", + ( locked ? "1" : nullptr )); + updateRepr(); + document->_emitModified(); +} + +bool SPItem::isHidden() const { + if (!isEvaluated()) + return true; + return style->display.computed == SP_CSS_DISPLAY_NONE; +} + +void SPItem::setHidden(bool hide) { + style->display.set = TRUE; + style->display.value = ( hide ? SP_CSS_DISPLAY_NONE : SP_CSS_DISPLAY_INLINE ); + style->display.computed = style->display.value; + style->display.inherit = FALSE; + updateRepr(); +} + +bool SPItem::isHidden(unsigned display_key) const +{ + if (!isEvaluated()) { + return true; + } + for (auto &v : views) { + if (v.key == display_key) { + g_assert(v.drawingitem); + for (auto di = v.drawingitem.get(); di; di = di->parent()) { + if (!di->visible()) { + return true; + } + } + return false; + } + } + return true; +} + +void SPItem::setHighlight(guint32 color) { + _highlightColor = color; + updateRepr(); +} + +bool SPItem::isHighlightSet() const { + return _highlightColor != 0; +} + +guint32 SPItem::highlight_color() const { + if (isHighlightSet()) { + return _highlightColor; + } + + SPItem const *item = cast<SPItem>(parent); + if (parent && (parent != this) && item) { + return item->highlight_color(); + } else { + static Inkscape::Preferences *prefs = Inkscape::Preferences::get(); + return prefs->getInt("/tools/nodes/highlight_color", 0xaaaaaaff); + } +} + +void SPItem::setEvaluated(bool evaluated) { + _is_evaluated = evaluated; + _evaluated_status = StatusSet; +} + +void SPItem::resetEvaluated() { + if ( StatusCalculated == _evaluated_status ) { + _evaluated_status = StatusUnknown; + bool oldValue = _is_evaluated; + if ( oldValue != isEvaluated() ) { + requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_STYLE_MODIFIED_FLAG); + } + } if ( StatusSet == _evaluated_status ) { + auto switchItem = cast<SPSwitch>(parent); + if (switchItem) { + switchItem->resetChildEvaluated(); + } + } +} + +bool SPItem::isEvaluated() const { + if ( StatusUnknown == _evaluated_status ) { + _is_evaluated = sp_item_evaluate(this); + _evaluated_status = StatusCalculated; + } + return _is_evaluated; +} + +bool SPItem::isExplicitlyHidden() const +{ + return (style->display.set + && style->display.value == SP_CSS_DISPLAY_NONE); +} + +void SPItem::setExplicitlyHidden(bool val) { + style->display.set = val; + style->display.value = ( val ? SP_CSS_DISPLAY_NONE : SP_CSS_DISPLAY_INLINE ); + style->display.computed = style->display.value; + updateRepr(); +} + +void SPItem::setCenter(Geom::Point const &object_centre) { + document->ensureUpToDate(); + + // Copied from DocumentProperties::onDocUnitChange() + gdouble viewscale = 1.0; + Geom::Rect vb = this->document->getRoot()->viewBox; + if ( !vb.hasZeroArea() ) { + gdouble viewscale_w = this->document->getWidth().value("px") / vb.width(); + gdouble viewscale_h = this->document->getHeight().value("px")/ vb.height(); + viewscale = std::min(viewscale_h, viewscale_w); + } + + // FIXME this is seriously wrong + Geom::OptRect bbox = desktopGeometricBounds(); + if (bbox) { + // object centre is document coordinates (i.e. in pixels), so we need to consider the viewbox + // to translate to user units; transform_center_x/y is in user units + transform_center_x = (object_centre[Geom::X] - bbox->midpoint()[Geom::X])/viewscale; + if (Geom::are_near(transform_center_x, 0)) // rounding error + transform_center_x = 0; + transform_center_y = (object_centre[Geom::Y] - bbox->midpoint()[Geom::Y])/viewscale; + if (Geom::are_near(transform_center_y, 0)) // rounding error + transform_center_y = 0; + } +} + +void +SPItem::unsetCenter() { + transform_center_x = 0; + transform_center_y = 0; +} + +bool SPItem::isCenterSet() const { + return (transform_center_x != 0 || transform_center_y != 0); +} + +// Get the item's transformation center in desktop coordinates (i.e. in pixels) +Geom::Point SPItem::getCenter() const { + document->ensureUpToDate(); + + // Copied from DocumentProperties::onDocUnitChange() + gdouble viewscale = 1.0; + Geom::Rect vb = this->document->getRoot()->viewBox; + if ( !vb.hasZeroArea() ) { + gdouble viewscale_w = this->document->getWidth().value("px") / vb.width(); + gdouble viewscale_h = this->document->getHeight().value("px")/ vb.height(); + viewscale = std::min(viewscale_h, viewscale_w); + } + + // FIXME this is seriously wrong + Geom::OptRect bbox = desktopGeometricBounds(); + if (bbox) { + // transform_center_x/y are stored in user units, so we have to take the viewbox into account to translate to document coordinates + return bbox->midpoint() + Geom::Point (transform_center_x*viewscale, transform_center_y*viewscale); + + } else { + return Geom::Point(0, 0); // something's wrong! + } + +} + +void +SPItem::scaleCenter(Geom::Scale const &sc) { + transform_center_x *= sc[Geom::X]; + transform_center_y *= sc[Geom::Y]; +} + +namespace { + +bool is_item(SPObject const &object) { + return cast<SPItem>(&object) != nullptr; +} + +} + +void SPItem::raiseToTop() { + auto& list = parent->children; + auto end = SPObject::ChildrenList::reverse_iterator(list.iterator_to(*this)); + auto topmost = std::find_if(list.rbegin(), end, &is_item); + // auto topmost = find_last_if(++parent->children.iterator_to(*this), parent->children.end(), &is_item); + if (topmost != list.rend()) { + getRepr()->parent()->changeOrder(getRepr(), topmost->getRepr()); + } +} + +bool SPItem::raiseOne() { + auto next_higher = std::find_if(++parent->children.iterator_to(*this), parent->children.end(), &is_item); + if (next_higher != parent->children.end()) { + Inkscape::XML::Node *ref = next_higher->getRepr(); + getRepr()->parent()->changeOrder(getRepr(), ref); + return true; + } + return false; +} + +bool SPItem::lowerOne() { + auto& list = parent->children; + auto self = list.iterator_to(*this); + auto start = SPObject::ChildrenList::reverse_iterator(self); + auto next_lower = std::find_if(start, list.rend(), &is_item); + if (next_lower != list.rend()) { + auto next = list.iterator_to(*next_lower); + if (next == list.begin()) { + getRepr()->parent()->changeOrder(getRepr(), nullptr); + } else { + --next; + auto ref = next->getRepr(); + getRepr()->parent()->changeOrder(getRepr(), ref); + } + return true; + } + return false; +} + +void SPItem::lowerToBottom() { + auto bottom = std::find_if(parent->children.begin(), parent->children.iterator_to(*this), &is_item); + if (bottom != parent->children.iterator_to(*this)) { + Inkscape::XML::Node *ref = nullptr; + if (bottom != parent->children.begin()) { + bottom--; + ref = bottom->getRepr(); + } + parent->getRepr()->changeOrder(getRepr(), ref); + } +} + +/** + * Return the parent, only if it's a group object. + */ +SPGroup *SPItem::getParentGroup() const +{ + return cast<SPGroup>(parent); +} + +void SPItem::moveTo(SPItem *target, bool intoafter) { + + Inkscape::XML::Node *target_ref = ( target ? target->getRepr() : nullptr ); + Inkscape::XML::Node *our_ref = getRepr(); + + if (!target_ref) { + // Assume move to the "first" in the top node, find the top node + intoafter = false; + SPObject* bottom = this->document->getObjectByRepr(our_ref->root())->firstChild(); + while (!is<SPItem>(bottom->getNext())) { + bottom = bottom->getNext(); + } + target_ref = bottom->getRepr(); + } + + if (target_ref == our_ref) { + // Move to ourself ignore + return; + } + + if (intoafter) { + // Move this inside of the target at the end + our_ref->parent()->removeChild(our_ref); + target_ref->addChild(our_ref, nullptr); + } else if (target_ref->parent() != our_ref->parent()) { + // Change in parent, need to remove and add + our_ref->parent()->removeChild(our_ref); + target_ref->parent()->addChild(our_ref, target_ref); + } else { + // Same parent, just move + our_ref->parent()->changeOrder(our_ref, target_ref); + } +} + +void SPItem::build(SPDocument *document, Inkscape::XML::Node *repr) { +#ifdef OBJECT_TRACE + objectTrace( "SPItem::build"); +#endif + + SPItem* object = this; + object->readAttr(SPAttr::STYLE); + object->readAttr(SPAttr::TRANSFORM); + object->readAttr(SPAttr::CLIP_PATH); + object->readAttr(SPAttr::MASK); + object->readAttr(SPAttr::SODIPODI_INSENSITIVE); + object->readAttr(SPAttr::TRANSFORM_CENTER_X); + object->readAttr(SPAttr::TRANSFORM_CENTER_Y); + object->readAttr(SPAttr::CONNECTOR_AVOID); + object->readAttr(SPAttr::CONNECTION_POINTS); + object->readAttr(SPAttr::INKSCAPE_HIGHLIGHT_COLOR); + + SPObject::build(document, repr); +#ifdef OBJECT_TRACE + objectTrace( "SPItem::build", false); +#endif +} + +void SPItem::release() +{ + // Note: do this here before the clip_ref is deleted, since calling + // ensureUpToDate() for triggered routing may reference + // the deleted clip_ref. + delete avoidRef; + avoidRef = nullptr; + + // we do NOT disconnect from the changed signal of those before deletion. + // The destructor will call *_ref_changed with NULL as the new value, + // which will cause the hide() function to be called. + delete clip_ref; + clip_ref = nullptr; + delete mask_ref; + mask_ref = nullptr; + + // the first thing SPObject::release() does is destroy the fill/stroke/filter references. + // as above, this calls *_ref_changed() which performs the hide(). + // it is important this happens before the views are cleared. + SPObject::release(); + + views.clear(); +} + +void SPItem::set(SPAttr key, gchar const* value) { +#ifdef OBJECT_TRACE + std::stringstream temp; + temp << "SPItem::set: " << sp_attribute_name(key) << " " << (value?value:"null"); + objectTrace( temp.str() ); +#endif + SPItem *item = this; + SPItem* object = item; + + switch (key) { + case SPAttr::TRANSFORM: { + Geom::Affine t; + if (value && sp_svg_transform_read(value, &t)) { + item->set_item_transform(t); + } else { + item->set_item_transform(Geom::identity()); + } + break; + } + case SPAttr::CLIP_PATH: { + auto uri = extract_uri(value); + if (!uri.empty() || item->clip_ref) { + item->getClipRef().try_attach(uri.c_str()); + } + break; + } + case SPAttr::MASK: { + auto uri = extract_uri(value); + if (!uri.empty() || item->mask_ref) { + item->getMaskRef().try_attach(uri.c_str()); + } + break; + } + case SPAttr::SODIPODI_INSENSITIVE: + { + item->sensitive = !value; + for (auto &v : item->views) { + v.drawingitem->setSensitive(item->sensitive); + } + break; + } + case SPAttr::INKSCAPE_HIGHLIGHT_COLOR: + { + item->_highlightColor = 0; + if (value) { + item->_highlightColor = sp_svg_read_color(value, 0x0) | 0xff; + } + break; + } + case SPAttr::CONNECTOR_AVOID: + if (value || item->avoidRef) { + item->getAvoidRef().setAvoid(value); + } + break; + case SPAttr::TRANSFORM_CENTER_X: + if (value) { + item->transform_center_x = g_strtod(value, nullptr); + } else { + item->transform_center_x = 0; + } + object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); + break; + case SPAttr::TRANSFORM_CENTER_Y: + if (value) { + item->transform_center_y = g_strtod(value, nullptr); + item->transform_center_y *= -document->yaxisdir(); + } else { + item->transform_center_y = 0; + } + object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); + break; + case SPAttr::SYSTEM_LANGUAGE: + case SPAttr::REQUIRED_FEATURES: + case SPAttr::REQUIRED_EXTENSIONS: + { + item->resetEvaluated(); + // pass to default handler + } + default: + if (SP_ATTRIBUTE_IS_CSS(key)) { + // FIXME: See if this is really necessary. Also, check after modifying SPIPaint to preserve + // non-#abcdef color formats. + + // Propagate the property change to all clones + style->readFromObject(object); + object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_STYLE_MODIFIED_FLAG); + } else { + SPObject::set(key, value); + } + break; + } +#ifdef OBJECT_TRACE + objectTrace( "SPItem::set", false); +#endif +} + +template <typename F> +class lazy +{ +public: + explicit lazy(F &&f): f(std::move(f)) {} + + auto operator()() + { + if (!result) result = f(); + return *result; + } + +private: + F f; + std::optional<typename std::invoke_result<F>::type> result; +}; + +void SPItem::clip_ref_changed(SPObject *old_clip, SPObject *clip) +{ + if (old_clip) { + clip_ref->modified_connection.disconnect(); + for (auto &v : views) { + auto oldPath = cast<SPClipPath>(old_clip); + g_assert(oldPath); + oldPath->hide(v.drawingitem->key() + ITEM_KEY_CLIP); + } + } + auto clipPath = cast<SPClipPath>(clip); + if (clipPath) { + Geom::OptRect bbox = geometricBounds(); + for (auto &v : views) { + auto clip_key = SPItem::ensure_key(v.drawingitem.get()) + ITEM_KEY_CLIP; + auto ai = clipPath->show(v.drawingitem->drawing(), clip_key, bbox); + v.drawingitem->setClip(ai); + } + clip_ref->modified_connection = clipPath->connectModified([this] (auto, unsigned flags) { + if (flags & (SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_CHILD_MODIFIED_FLAG)) { + requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); + } + }); + } + requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); // To update bbox. +} + +void SPItem::mask_ref_changed(SPObject *old_mask, SPObject *mask) +{ + if (old_mask) { + mask_ref->modified_connection.disconnect(); + for (auto &v : views) { + auto maskItem = cast<SPMask>(old_mask); + g_assert(maskItem); + maskItem->hide(v.drawingitem->key() + ITEM_KEY_MASK); + } + } + auto maskItem = cast<SPMask>(mask); + if (maskItem) { + Geom::OptRect bbox = geometricBounds(); + for (auto &v : views) { + auto mask_key = SPItem::ensure_key(v.drawingitem.get()) + ITEM_KEY_MASK; + auto ai = maskItem->show(v.drawingitem->drawing(), mask_key, bbox); + v.drawingitem->setMask(ai); + } + mask_ref->modified_connection = maskItem->connectModified([this] (auto, unsigned flags) { + if (flags & (SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_CHILD_MODIFIED_FLAG)) { + requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); + } + }); + } + requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); // To update bbox. +} + +void SPItem::fill_ps_ref_changed(SPObject *old_ps, SPObject *ps) +{ + auto old_fill_ps = cast<SPPaintServer>(old_ps); + if (old_fill_ps) { + for (auto &v : views) { + old_fill_ps->hide(v.drawingitem->key() + ITEM_KEY_FILL); + } + } + + auto new_fill_ps = cast<SPPaintServer>(ps); + if (new_fill_ps) { + Geom::OptRect bbox = geometricBounds(); + for (auto &v : views) { + auto fill_key = SPItem::ensure_key(v.drawingitem.get()) + ITEM_KEY_FILL; + auto pi = new_fill_ps->show(v.drawingitem->drawing(), fill_key, bbox); + v.drawingitem->setFillPattern(pi); + } + } +} + +void SPItem::stroke_ps_ref_changed(SPObject *old_ps, SPObject *ps) +{ + auto old_stroke_ps = cast<SPPaintServer>(old_ps); + if (old_stroke_ps) { + for (auto &v : views) { + old_stroke_ps->hide(v.drawingitem->key() + ITEM_KEY_STROKE); + } + } + + auto new_stroke_ps = cast<SPPaintServer>(ps); + if (new_stroke_ps) { + Geom::OptRect bbox = geometricBounds(); + for (auto &v : views) { + auto stroke_key = SPItem::ensure_key(v.drawingitem.get()) + ITEM_KEY_STROKE; + auto pi = new_stroke_ps->show(v.drawingitem->drawing(), stroke_key, bbox); + v.drawingitem->setStrokePattern(pi); + } + } +} + +void SPItem::filter_ref_changed(SPObject *old_obj, SPObject *obj) +{ + auto old_filter = cast<SPFilter>(old_obj); + if (old_filter) { + for (auto &v : views) { + old_filter->hide(v.drawingitem.get()); + } + } + + auto new_filter = cast<SPFilter>(obj); + if (new_filter) { + for (auto &v : views) { + new_filter->show(v.drawingitem.get()); + } + } +} + +void SPItem::update(SPCtx *ctx, unsigned flags) +{ + auto ictx = static_cast<SPItemCtx const*>(ctx); + + // Any of the modifications defined in sp-object.h might change bbox, + // so we invalidate it unconditionally + bbox_valid = false; + + viewport = ictx->viewport; // Cache viewport + + auto bbox = lazy([this] { + return geometricBounds(); + }); + + if (flags & (SP_OBJECT_CHILD_MODIFIED_FLAG | + SP_OBJECT_MODIFIED_FLAG | + SP_OBJECT_STYLE_MODIFIED_FLAG)) + { + if (flags & SP_OBJECT_MODIFIED_FLAG) { + for (auto &v : views) { + v.drawingitem->setTransform(transform); + } + } + + auto set_bboxes = [&, this] (auto obj, int type) { + if (obj) { + for (auto &v : views) { + obj->setBBox(v.drawingitem->key() + type, bbox()); + } + } + }; + + set_bboxes(getClipObject(), ITEM_KEY_CLIP); + set_bboxes(getMaskObject(), ITEM_KEY_MASK); + set_bboxes(style->getFillPaintServer(), ITEM_KEY_FILL); + set_bboxes(style->getStrokePaintServer(), ITEM_KEY_STROKE); + + if (flags & SP_OBJECT_STYLE_MODIFIED_FLAG) { + for (auto &v : views) { + v.drawingitem->setOpacity(SP_SCALE24_TO_FLOAT(style->opacity.value)); + v.drawingitem->setAntialiasing(style->shape_rendering.computed == SP_CSS_SHAPE_RENDERING_CRISPEDGES ? 0 : 2); + v.drawingitem->setIsolation(style->isolation.value); + v.drawingitem->setBlendMode(style->mix_blend_mode.value); + v.drawingitem->setVisible(!isHidden()); + } + } + } + + // Update bounding box in user space, used for filter and objectBoundingBox units. + if (style->filter.set) { + for (auto &v : views) { + if (v.drawingitem) { + v.drawingitem->setItemBounds(bbox()); + } + } + } + + // Update libavoid with item geometry (for connector routing). + if (avoidRef && document) { + avoidRef->handleSettingChange(); + } +} + +void SPItem::modified(unsigned int /*flags*/) +{ +#ifdef OBJECT_TRACE + objectTrace( "SPItem::modified" ); + objectTrace( "SPItem::modified", false ); +#endif +} + +Inkscape::XML::Node* SPItem::write(Inkscape::XML::Document *xml_doc, Inkscape::XML::Node *repr, guint flags) { + SPItem *item = this; + SPItem* object = item; + + // in the case of SP_OBJECT_WRITE_BUILD, the item should always be newly created, + // so we need to add any children from the underlying object to the new repr + if (flags & SP_OBJECT_WRITE_BUILD) { + std::vector<Inkscape::XML::Node *>l; + for (auto& child: object->children) { + if (is<SPTitle>(&child) || is<SPDesc>(&child)) { + Inkscape::XML::Node *crepr = child.updateRepr(xml_doc, nullptr, flags); + if (crepr) { + l.push_back(crepr); + } + } + } + for (auto i = l.rbegin(); i!= l.rend(); ++i) { + repr->addChild(*i, nullptr); + Inkscape::GC::release(*i); + } + } else { + for (auto& child: object->children) { + if (is<SPTitle>(&child) || is<SPDesc>(&child)) { + child.updateRepr(flags); + } + } + } + + repr->setAttributeOrRemoveIfEmpty("transform", sp_svg_transform_write(item->transform)); + + if (flags & SP_OBJECT_WRITE_EXT) { + repr->setAttribute("sodipodi:insensitive", ( item->sensitive ? nullptr : "true" )); + if (item->transform_center_x != 0) + repr->setAttributeSvgDouble("inkscape:transform-center-x", item->transform_center_x); + else + repr->removeAttribute("inkscape:transform-center-x"); + if (item->transform_center_y != 0) { + auto y = item->transform_center_y; + y *= -document->yaxisdir(); + repr->setAttributeSvgDouble("inkscape:transform-center-y", y); + } else + repr->removeAttribute("inkscape:transform-center-y"); + } + + if (getClipObject()) { + auto value = item->clip_ref->getURI()->cssStr(); + repr->setAttributeOrRemoveIfEmpty("clip-path", value); + } + if (getMaskObject()) { + auto value = item->mask_ref->getURI()->cssStr(); + repr->setAttributeOrRemoveIfEmpty("mask", value); + } + if (item->isHighlightSet()) { + repr->setAttribute("inkscape:highlight-color", SPColor(item->_highlightColor).toString()); + } else { + repr->removeAttribute("inkscape:highlight-color"); + } + + SPObject::write(xml_doc, repr, flags); + + return repr; +} + +// CPPIFY: make pure virtual +Geom::OptRect SPItem::bbox(Geom::Affine const & /*transform*/, SPItem::BBoxType /*type*/) const { + //throw; + return Geom::OptRect(); +} + +Geom::OptRect SPItem::geometricBounds(Geom::Affine const &transform) const +{ + return bbox(transform, SPItem::GEOMETRIC_BBOX); +} + +Geom::OptRect SPItem::visualBounds(Geom::Affine const &transform, bool wfilter, bool wclip, bool wmask) const +{ + Geom::OptRect bbox; + + auto gbox = lazy([this] { + return geometricBounds(); + }); + + if (auto filter = style ? style->getFilter() : nullptr; filter && wfilter) { + // call the subclass method + bbox = gbox(); // see LP Bug 1229971 + + // default filter area per the SVG spec: + SVGLength x, y, w, h; + x.set(SVGLength::PERCENT, -0.10, 0); + y.set(SVGLength::PERCENT, -0.10, 0); + w.set(SVGLength::PERCENT, 1.20, 0); + h.set(SVGLength::PERCENT, 1.20, 0); + + // if area is explicitly set, override: + if (filter->x._set) x = filter->x; + if (filter->y._set) y = filter->y; + if (filter->width._set) w = filter->width; + if (filter->height._set) h = filter->height; + + auto const len = bbox ? bbox->dimensions() : Geom::Point(); + + x.update(12, 6, len.x()); + y.update(12, 6, len.y()); + w.update(12, 6, len.x()); + h.update(12, 6, len.y()); + + if (filter->filterUnits == SP_FILTER_UNITS_OBJECTBOUNDINGBOX && bbox) { + bbox = Geom::Rect::from_xywh( + bbox->left() + x.computed * (x.unit == SVGLength::PERCENT ? 1.0 : len.x()), + bbox->top() + y.computed * (y.unit == SVGLength::PERCENT ? 1.0 : len.y()), + w.computed * (w.unit == SVGLength::PERCENT ? 1.0 : len.x()), + h.computed * (h.unit == SVGLength::PERCENT ? 1.0 : len.y()) + ); + } else { + bbox = Geom::Rect::from_xywh(x.computed, y.computed, w.computed, h.computed); + } + + *bbox *= transform; + } else { + // call the subclass method + bbox = this->bbox(transform, SPItem::VISUAL_BBOX); + } + + auto transform_with_units = [&] (bool contentunits) { + return contentunits == SP_CONTENT_UNITS_OBJECTBOUNDINGBOX && gbox() + ? Geom::Scale(gbox()->dimensions()) * Geom::Translate(gbox()->min()) * transform + : transform; + }; + + auto apply_clip_or_mask_bbox = [&] (auto const *obj, bool contentunits) { + bbox.intersectWith(obj->geometricBounds(transform_with_units(contentunits))); + }; + + if (auto clip = getClipObject(); clip && wclip) { + apply_clip_or_mask_bbox(clip, clip->clippath_units()); + } + + if (auto mask = getMaskObject(); mask && wmask) { + apply_clip_or_mask_bbox(mask, mask->mask_content_units()); + } + + return bbox; +} + +Geom::OptRect SPItem::bounds(BBoxType type, Geom::Affine const &transform) const +{ + if (type == GEOMETRIC_BBOX) { + return geometricBounds(transform); + } else { + return visualBounds(transform); + } +} + +Geom::OptRect SPItem::documentPreferredBounds() const +{ + if (Inkscape::Preferences::get()->getInt("/tools/bounding_box") == 0) { + return documentBounds(SPItem::VISUAL_BBOX); + } else { + return documentBounds(SPItem::GEOMETRIC_BBOX); + } +} + +Geom::OptRect SPItem::documentGeometricBounds() const +{ + return geometricBounds(i2doc_affine()); +} + +Geom::OptRect SPItem::documentVisualBounds() const +{ + if (!bbox_valid) { + doc_bbox = visualBounds(i2doc_affine()); + bbox_valid = true; + } + return doc_bbox; +} +Geom::OptRect SPItem::documentBounds(BBoxType type) const +{ + if (type == GEOMETRIC_BBOX) { + return documentGeometricBounds(); + } else { + return documentVisualBounds(); + } +} + +std::optional<Geom::PathVector> SPItem::documentExactBounds() const +{ + std::optional<Geom::PathVector> result; + if (auto bounding_rect = visualBounds()) { + result = Geom::Path(*bounding_rect) * i2doc_affine(); + } + return result; +} + +Geom::OptRect SPItem::desktopGeometricBounds() const +{ + return geometricBounds(i2dt_affine()); +} + +Geom::OptRect SPItem::desktopVisualBounds() const +{ + Geom::OptRect ret = documentVisualBounds(); + if (ret) { + *ret *= document->doc2dt(); + } + return ret; +} + +Geom::OptRect SPItem::desktopPreferredBounds() const +{ + if (Inkscape::Preferences::get()->getInt("/tools/bounding_box") == 0) { + return desktopBounds(SPItem::VISUAL_BBOX); + } else { + return desktopBounds(SPItem::GEOMETRIC_BBOX); + } +} + +Geom::OptRect SPItem::desktopBounds(BBoxType type) const +{ + if (type == GEOMETRIC_BBOX) { + return desktopGeometricBounds(); + } else { + return desktopVisualBounds(); + } +} + +unsigned int SPItem::pos_in_parent() const { + g_assert(parent != nullptr); + + unsigned int pos = 0; + + for (auto& iter: parent->children) { + if (&iter == this) { + return pos; + } + + if (is<SPItem>(&iter)) { + pos++; + } + } + + g_assert_not_reached(); + return 0; +} + +// CPPIFY: make pure virtual, see below! +void SPItem::snappoints(std::vector<Inkscape::SnapCandidatePoint> & /*p*/, Inkscape::SnapPreferences const */*snapprefs*/) const { + //throw; +} + /* This will only be called if the derived class doesn't override this. + * see for example sp_genericellipse_snappoints in sp-ellipse.cpp + * We don't know what shape we could be dealing with here, so we'll just + * do nothing + */ + +void SPItem::getSnappoints(std::vector<Inkscape::SnapCandidatePoint> &p, Inkscape::SnapPreferences const *snapprefs) const +{ + // Get the snappoints of the item + snappoints(p, snapprefs); + + // Get the snappoints at the item's center + if (snapprefs && snapprefs->isTargetSnappable(Inkscape::SNAPTARGET_ROTATION_CENTER)) { + p.emplace_back(getCenter(), Inkscape::SNAPSOURCE_ROTATION_CENTER, Inkscape::SNAPTARGET_ROTATION_CENTER); + } + + // Get the snappoints of clipping paths and mask, if any + auto desktop = SP_ACTIVE_DESKTOP; + + auto gbox = lazy([this] { + return geometricBounds(); + }); + + auto add_clip_or_mask_points = [&, this] (SPObject const *obj, bool contentunits) { + // obj is a group object, the children are the actual clippers + for (auto &child: obj->children) { + if (auto item = cast<SPItem>(&child)) { + std::vector<Inkscape::SnapCandidatePoint> p_clip_or_mask; + // Please note the recursive call here! + item->getSnappoints(p_clip_or_mask, snapprefs); + // Take into account the transformation of the item being clipped or masked + for (auto const &p_orig : p_clip_or_mask) { + // All snappoints are in desktop coordinates, but the item's transformation is + // in document coordinates. Hence the awkward construction below + auto pt = p_orig.getPoint(); + if (contentunits == SP_CONTENT_UNITS_OBJECTBOUNDINGBOX && gbox()) { + pt *= Geom::Scale(gbox()->dimensions()) * Geom::Translate(gbox()->min()); + } + pt = desktop->dt2doc(pt) * i2dt_affine(); + p.emplace_back(pt, p_orig.getSourceType(), p_orig.getTargetType()); + } + } + } + }; + + if (auto clip = getClipObject()) { + add_clip_or_mask_points(clip, clip->clippath_units()); + } + + if (auto mask = getMaskObject()) { + add_clip_or_mask_points(mask, mask->mask_content_units()); + } +} + +// CPPIFY: make pure virtual +void SPItem::print(SPPrintContext* /*ctx*/) { + //throw; +} + +void SPItem::invoke_print(SPPrintContext *ctx) +{ + if (!isHidden()) { + if (!transform.isIdentity() || style->opacity.value != SP_SCALE24_MAX) { + ctx->bind(transform, SP_SCALE24_TO_FLOAT(style->opacity.value)); + print(ctx); + ctx->release(); + } else { + print(ctx); + } + } +} + +/** + * The item's type name, not node tag name. NOT translated. + * + * @return The item's type name (default: 'item') + */ +const char* SPItem::typeName() const { + return "item"; +} + +/** + * The item's type name as a translated human string. + * + * Translated string for UI display. + */ +const char* SPItem::displayName() const { + return _("Object"); +} + +gchar* SPItem::description() const { + return g_strdup(""); +} + +gchar *SPItem::detailedDescription() const { + gchar* s = g_strdup_printf("<b>%s</b> %s", + this->displayName(), this->description()); + + if (s && getClipObject()) { + char *snew = g_strdup_printf(_("%s; <i>clipped</i>"), s); + g_free(s); + s = snew; + } + + if (s && getMaskObject()) { + char *snew = g_strdup_printf(_("%s; <i>masked</i>"), s); + g_free(s); + s = snew; + } + + if (style && style->filter.href && style->filter.href->getObject()) { + char const *label = style->filter.href->getObject()->label(); + char *snew = nullptr; + + if (label) { + snew = g_strdup_printf(_("%s; <i>filtered (%s)</i>"), s, _(label)); + } else { + snew = g_strdup_printf(_("%s; <i>filtered</i>"), s); + } + + g_free(s); + s = snew; + } + + return s; +} + +bool SPItem::isFiltered() const { + return style && style->filter.href && style->filter.href->getObject(); +} + +SPObject* SPItem::isInMask() const { + SPObject* parent = this->parent; + while (parent && !is<SPMask>(parent)) { + parent = parent->parent; + } + return parent; +} + +SPObject* SPItem::isInClipPath() const { + SPObject* parent = this->parent; + while (parent && !is<SPClipPath>(parent)) { + parent = parent->parent; + } + return parent; +} + +unsigned SPItem::display_key_new(unsigned numkeys) +{ + static unsigned dkey = 1; + + dkey += numkeys; + + return dkey - numkeys; +} + +unsigned SPItem::ensure_key(Inkscape::DrawingItem *di) +{ + if (!di->key()) { + di->setKey(SPItem::display_key_new(ITEM_KEY_SIZE)); + } + return di->key(); +} + +// CPPIFY: make pure virtual +Inkscape::DrawingItem* SPItem::show(Inkscape::Drawing& /*drawing*/, unsigned int /*key*/, unsigned int /*flags*/) { + //throw; + return nullptr; +} + +Inkscape::DrawingItem *SPItem::invoke_show(Inkscape::Drawing &drawing, unsigned key, unsigned flags) +{ + auto ai = show(drawing, key, flags); + if (!ai) { + return nullptr; + } + + auto const bbox = geometricBounds(); + + ai->setItem(this); + ai->setItemBounds(bbox); + ai->setTransform(transform); + ai->setOpacity(SP_SCALE24_TO_FLOAT(style->opacity.value)); + ai->setIsolation(style->isolation.value); + ai->setBlendMode(style->mix_blend_mode.value); + ai->setVisible(!isHidden()); + ai->setSensitive(sensitive); + views.emplace_back(flags, key, DrawingItemPtr<Inkscape::DrawingItem>(ai)); + + if (auto clip = getClipObject()) { + auto clip_key = SPItem::ensure_key(ai) + ITEM_KEY_CLIP; + auto ac = clip->show(drawing, clip_key, bbox); + ai->setClip(ac); + } + if (auto mask = getMaskObject()) { + auto mask_key = SPItem::ensure_key(ai) + ITEM_KEY_MASK; + auto ac = mask->show(drawing, mask_key, bbox); + ai->setMask(ac); + } + if (auto fill = style->getFillPaintServer()) { + auto fill_key = SPItem::ensure_key(ai) + ITEM_KEY_FILL; + auto ap = fill->show(drawing, fill_key, bbox); + ai->setFillPattern(ap); + } + if (auto stroke = style->getStrokePaintServer()) { + auto stroke_key = SPItem::ensure_key(ai) + ITEM_KEY_STROKE; + auto ap = stroke->show(drawing, stroke_key, bbox); + ai->setStrokePattern(ap); + } + if (auto filter = style->getFilter()) { + filter->show(ai); + } + + return ai; +} + +// CPPIFY: make pure virtual +void SPItem::hide(unsigned int /*key*/) { + //throw; +} + +void SPItem::invoke_hide(unsigned key) +{ + hide(key); + + for (auto it = views.begin(); it != views.end(); ) { + auto &v = *it; + if (v.key == key) { + unsigned ai_key = v.drawingitem->key(); + + if (auto clip = getClipObject()) { + clip->hide(ai_key + ITEM_KEY_CLIP); + } + if (auto mask = getMaskObject()) { + mask->hide(ai_key + ITEM_KEY_MASK); + } + if (auto fill_ps = style->getFillPaintServer()) { + fill_ps->hide(ai_key + ITEM_KEY_FILL); + } + if (auto stroke_ps = style->getStrokePaintServer()) { + stroke_ps->hide(ai_key + ITEM_KEY_STROKE); + } + if (auto filter = style->getFilter()) { + filter->hide(v.drawingitem.get()); + } + + v.drawingitem.reset(); + + *it = std::move(views.back()); + views.pop_back(); + } else { + ++it; + } + } +} + +/** + * Invoke hide on all non-group items, except for the list of items to keep. + */ +void SPItem::invoke_hide_except(unsigned key, const std::vector<SPItem *> &to_keep) +{ + // If item is not in the list of items to keep. + if (to_keep.end() == find(to_keep.begin(), to_keep.end(), this)) { + // Only hide the item if it's not a group, root or use. + if (!is<SPRoot>(this) && + !is<SPGroup>(this) && + !is<SPUse>(this) + ) { + this->invoke_hide(key); + } + // recurse + for (auto &obj : this->children) { + if (auto child = cast<SPItem>(&obj)) { + child->invoke_hide_except(key, to_keep); + } + } + } +} + +// Adjusters + +void SPItem::adjust_pattern(Geom::Affine const &postmul, bool set, PaintServerTransform pt) +{ + bool fill = (pt == TRANSFORM_FILL || pt == TRANSFORM_BOTH); + if (fill && style && (style->fill.isPaintserver())) { + SPObject *server = style->getFillPaintServer(); + auto serverPatt = cast<SPPattern>(server); + if ( serverPatt ) { + SPPattern *pattern = serverPatt->clone_if_necessary(this, "fill"); + pattern->transform_multiply(postmul, set); + } + } + + bool stroke = (pt == TRANSFORM_STROKE || pt == TRANSFORM_BOTH); + if (stroke && style && (style->stroke.isPaintserver())) { + SPObject *server = style->getStrokePaintServer(); + auto serverPatt = cast<SPPattern>(server); + if ( serverPatt ) { + SPPattern *pattern = serverPatt->clone_if_necessary(this, "stroke"); + pattern->transform_multiply(postmul, set); + } + } +} + +void SPItem::adjust_hatch(Geom::Affine const &postmul, bool set, PaintServerTransform pt) +{ + bool fill = (pt == TRANSFORM_FILL || pt == TRANSFORM_BOTH); + if (fill && style && (style->fill.isPaintserver())) { + SPObject *server = style->getFillPaintServer(); + auto serverHatch = cast<SPHatch>(server); + if (serverHatch) { + SPHatch *hatch = serverHatch->clone_if_necessary(this, "fill"); + hatch->transform_multiply(postmul, set); + } + } + + bool stroke = (pt == TRANSFORM_STROKE || pt == TRANSFORM_BOTH); + if (stroke && style && (style->stroke.isPaintserver())) { + SPObject *server = style->getStrokePaintServer(); + auto serverHatch = cast<SPHatch>(server); + if (serverHatch) { + SPHatch *hatch = serverHatch->clone_if_necessary(this, "stroke"); + hatch->transform_multiply(postmul, set); + } + } +} + +void SPItem::adjust_gradient( Geom::Affine const &postmul, bool set ) +{ + if ( style && style->fill.isPaintserver() ) { + SPPaintServer *server = style->getFillPaintServer(); + auto serverGrad = cast<SPGradient>(server); + if ( serverGrad ) { + + /** + * \note Bbox units for a gradient are generally a bad idea because + * with them, you cannot preserve the relative position of the + * object and its gradient after rotation or skew. So now we + * convert them to userspace units which are easy to keep in sync + * just by adding the object's transform to gradientTransform. + * \todo FIXME: convert back to bbox units after transforming with + * the item, so as to preserve the original units. + */ + SPGradient *gradient = sp_gradient_convert_to_userspace( serverGrad, this, "fill" ); + + sp_gradient_transform_multiply( gradient, postmul, set ); + } + } + + if ( style && style->stroke.isPaintserver() ) { + SPPaintServer *server = style->getStrokePaintServer(); + auto serverGrad = cast<SPGradient>(server); + if ( serverGrad ) { + SPGradient *gradient = sp_gradient_convert_to_userspace( serverGrad, this, "stroke"); + sp_gradient_transform_multiply( gradient, postmul, set ); + } + } +} + +void SPItem::adjust_stroke( gdouble ex ) +{ + if (freeze_stroke_width) { + return; + } + + SPStyle *style = this->style; + + if (style && !Geom::are_near(ex, 1.0, Geom::EPSILON)) { + style->stroke_width.computed *= ex; + style->stroke_width.set = TRUE; + + if ( !style->stroke_dasharray.values.empty() ) { + for (auto & value : style->stroke_dasharray.values) { + value.value *= ex; + value.computed *= ex; + } + style->stroke_dashoffset.value *= ex; + style->stroke_dashoffset.computed *= ex; + } + + updateRepr(); + } +} + +/** + * Find out the inverse of previous transform of an item (from its repr) + */ +Geom::Affine sp_item_transform_repr (SPItem *item) +{ + Geom::Affine t_old(Geom::identity()); + gchar const *t_attr = item->getRepr()->attribute("transform"); + if (t_attr) { + Geom::Affine t; + if (sp_svg_transform_read(t_attr, &t)) { + t_old = t; + } + } + + return t_old; +} + + +void SPItem::adjust_stroke_width_recursive(double expansion) +{ + adjust_stroke (expansion); + +// A clone's child is the ghost of its original - we must not touch it, skip recursion + if (!is<SPUse>(this)) { + for (auto& o: children) { + auto item = cast<SPItem>(&o); + if (item) { + item->adjust_stroke_width_recursive(expansion); + } + } + } +} + +void SPItem::freeze_stroke_width_recursive(bool freeze) +{ + freeze_stroke_width = freeze; + +// A clone's child is the ghost of its original - we must not touch it, skip recursion + if (!is<SPUse>(this)) { + for (auto& o: children) { + auto item = cast<SPItem>(&o); + if (item) { + item->freeze_stroke_width_recursive(freeze); + } + } + } +} + +/** + * Recursively adjust rx and ry of rects. + */ +static void +sp_item_adjust_rects_recursive(SPItem *item, Geom::Affine advertized_transform) +{ + auto rect = cast<SPRect>(item); + if (rect) { + rect->compensateRxRy(advertized_transform); + } + + for(auto& o: item->children) { + auto itm = cast<SPItem>(&o); + if (itm) { + sp_item_adjust_rects_recursive(itm, advertized_transform); + } + } +} + +void SPItem::adjust_paint_recursive(Geom::Affine advertized_transform, Geom::Affine t_ancestors, PaintServerType type) +{ +// _Before_ full pattern/gradient transform: t_paint * t_item * t_ancestors +// _After_ full pattern/gradient transform: t_paint_new * t_item * t_ancestors * advertised_transform +// By equating these two expressions we get t_paint_new = t_paint * paint_delta, where: + Geom::Affine t_item = sp_item_transform_repr (this); + Geom::Affine paint_delta = t_item * t_ancestors * advertized_transform * t_ancestors.inverse() * t_item.inverse(); + +// Within text, we do not fork gradients, and so must not recurse to avoid double compensation; +// also we do not recurse into clones, because a clone's child is the ghost of its original - +// we must not touch it + if (!(cast<SPText>(this) || cast<SPUse>(this))) { + for (auto& o: children) { + auto item = cast<SPItem>(&o); + if (item) { + // At the level of the transformed item, t_ancestors is identity; + // below it, it is the accumulated chain of transforms from this level to the top level + item->adjust_paint_recursive(advertized_transform, t_item * t_ancestors, type); + } + } + } + +// We recursed into children first, and are now adjusting this object second; +// this is so that adjustments in a tree are done from leaves up to the root, +// and paintservers on leaves inheriting their values from ancestors could adjust themselves properly +// before ancestors themselves are adjusted, probably differently (bug 1286535) + + switch (type) { + case PATTERN: { + adjust_pattern(paint_delta); + break; + } + case HATCH: { + adjust_hatch(paint_delta); + break; + } + default: { + adjust_gradient(paint_delta); + } + } +} + +bool SPItem::collidesWith(Geom::PathVector const &shape) const +{ + auto our_shape = documentExactBounds(); + return our_shape ? pathvs_have_nonempty_overlap(*our_shape, shape) : false; +} + +bool SPItem::collidesWith(SPItem const &other) const +{ + auto other_shape = other.documentExactBounds(); + return other_shape ? collidesWith(*other_shape) : false; +} + +// CPPIFY:: make pure virtual? +// Not all SPItems must necessarily have a set transform method! +Geom::Affine SPItem::set_transform(Geom::Affine const &transform) { +// throw; + return transform; +} + +/** + * Return true if the item is referenced by an LPE. + */ +static bool is_satellite_item(SPItem const &item) +{ + for (SPObject const *ref : item.hrefList) { + if (is<LivePathEffectObject>(ref)) { + return true; + } + } + return false; +} + +bool SPItem::unoptimized() { + if (auto path_effect = getAttribute("inkscape:path-effect")) { + assert(path_effect[0]); + return true; + } + + if (is_satellite_item(*this)) { + return true; + } + + return false; +} + +void SPItem::doWriteTransform(Geom::Affine const &transform, Geom::Affine const *adv, bool compensate) +{ + // calculate the relative transform, if not given by the adv attribute + Geom::Affine advertized_transform; + if (adv != nullptr) { + advertized_transform = *adv; + } else { + advertized_transform = sp_item_transform_repr (this).inverse() * transform; + } + + Inkscape::Preferences *prefs = Inkscape::Preferences::get(); + if (compensate) { + // recursively compensating for stroke scaling will not always work, because it can be scaled to zero or infinite + // from which we cannot ever recover by applying an inverse scale; therefore we temporarily block any changes + // to the strokewidth in such a case instead, and unblock these after the transformation + // (as reported in https://bugs.launchpad.net/inkscape/+bug/825840/comments/4) + if (!prefs->getBool("/options/transform/stroke", true)) { + double const expansion = 1. / advertized_transform.descrim(); + if (expansion < 1e-9 || expansion > 1e9) { + freeze_stroke_width_recursive(true); + // This will only work if the item has a set_transform method (in this method adjust_stroke() will be called) + // We will still have to apply the inverse scaling to other items, not having a set_transform method + // such as ellipses and stars + // PS: We cannot use this freeze_stroke_width_recursive() trick in all circumstances. For example, it will + // break pasting objects within their group (because in such a case the transformation of the group will affect + // the strokewidth, and has to be compensated for. See https://bugs.launchpad.net/inkscape/+bug/959223/comments/10) + } else { + adjust_stroke_width_recursive(expansion); + } + } + + // recursively compensate rx/ry of a rect if requested + if (!prefs->getBool("/options/transform/rectcorners", true)) { + sp_item_adjust_rects_recursive(this, advertized_transform); + } + + // recursively compensate pattern fill if it's not to be transformed + if (!prefs->getBool("/options/transform/pattern", true)) { + adjust_paint_recursive(advertized_transform.inverse(), Geom::identity(), PATTERN); + } + if (!prefs->getBool("/options/transform/hatch", true)) { + adjust_paint_recursive(advertized_transform.inverse(), Geom::identity(), HATCH); + } + + /// \todo FIXME: add the same else branch as for gradients below, to convert patterns to userSpaceOnUse as well + /// recursively compensate gradient fill if it's not to be transformed + if (!prefs->getBool("/options/transform/gradient", true)) { + adjust_paint_recursive(advertized_transform.inverse(), Geom::identity(), GRADIENT); + } else { + // this converts the gradient/pattern fill/stroke, if any, to userSpaceOnUse; we need to do + // it here _before_ the new transform is set, so as to use the pre-transform bbox + adjust_paint_recursive(Geom::identity(), Geom::identity(), GRADIENT); + } + + } // endif(compensate) + + gint preserve = prefs->getBool("/options/preservetransform/value", false); + Geom::Affine transform_attr (transform); + + // CPPIFY: check this code. + // If onSetTransform is not overridden, CItem::onSetTransform will return the transform it was given as a parameter. + // onSetTransform cannot be pure due to the fact that not all visible Items are transformable. + auto lpeitem = cast<SPLPEItem>(this); + if (lpeitem) { + lpeitem->notifyTransform(transform); + } + bool unoptimiced = unoptimized(); + if ( // run the object's set_transform (i.e. embed transform) only if: + (cast<SPText>(this) && firstChild() && cast<SPTextPath>(firstChild())) || + (!preserve && // user did not chose to preserve all transforms + !getClipObject() && // the object does not have a clippath + !getMaskObject() && // the object does not have a mask + !(!transform.isTranslation() && style && style->getFilter()) && + !unoptimiced) + // the object does not have a filter, or the transform is translation (which is supposed to not affect filters) + ) + { + transform_attr = this->set_transform(transform); + } + if (freeze_stroke_width) { + freeze_stroke_width_recursive(false); + if (compensate) { + if (!prefs->getBool("/options/transform/stroke", true)) { + // Recursively compensate for stroke scaling, depending on user preference + // (As to why we need to do this, see the comment a few lines above near the freeze_stroke_width_recursive(true) call) + double const expansion = 1. / advertized_transform.descrim(); + adjust_stroke_width_recursive(expansion); + } + } + } + // this avoid temporary scaling issues on display when near identity + // this must be a bit grater than EPSILON * transform.descrim() + double e = 1e-5 * transform.descrim(); + if (transform_attr.isIdentity(e)) { + transform_attr = Geom::Affine(); + } + set_item_transform(transform_attr); + + // Note: updateRepr comes before emitting the transformed signal since + // it causes clone SPUse's copy of the original object to be brought up to + // date with the original. Otherwise, sp_use_bbox returns incorrect + // values if called in code handling the transformed signal. + updateRepr(); + + if (lpeitem) { + if (!lpeitem->hasPathEffectOfType(Inkscape::LivePathEffect::SLICE)) { + sp_lpe_item_update_patheffect(lpeitem, false, true); + } + } + + // send the relative transform with a _transformed_signal + _transformed_signal.emit(&advertized_transform, this); +} + +// CPPIFY: see below, do not make pure? +gint SPItem::event(SPEvent* /*event*/) { + return FALSE; +} + +gint SPItem::emitEvent(SPEvent &event) +{ + return this->event(&event); +} + +void SPItem::set_item_transform(Geom::Affine const &transform_matrix) +{ + if (!Geom::are_near(transform_matrix, transform, 1e-18)) { + transform = transform_matrix; + /* The SP_OBJECT_USER_MODIFIED_FLAG_B is used to mark the fact that it's only a + transformation. It's apparently not used anywhere else. */ + requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_USER_MODIFIED_FLAG_B); + } +} + +//void SPItem::convert_to_guides() const { +// // CPPIFY: If not overridden, call SPItem::convert_to_guides() const, see below! +// this->convert_to_guides(); +//} + +Geom::Affine i2anc_affine(SPObject const *object, SPObject const *ancestor) +{ + Geom::Affine ret; + + // Stop at first non-renderable ancestor. + while (object != ancestor && is<SPItem>(object)) { + if (auto root = cast<SPRoot>(object)) { + ret *= root->c2p; + } else { + auto item = cast_unsafe<SPItem>(object); + ret *= item->transform; + } + object = object->parent; + } + + return ret; +} + +Geom::Affine +i2i_affine(SPObject const *src, SPObject const *dest) { + g_return_val_if_fail(src != nullptr && dest != nullptr, Geom::identity()); + SPObject const *ancestor = src->nearestCommonAncestor(dest); + return i2anc_affine(src, ancestor) * i2anc_affine(dest, ancestor).inverse(); +} + +Geom::Affine SPItem::getRelativeTransform(SPObject const *dest) const { + return i2i_affine(this, dest); +} + +Geom::Affine SPItem::i2doc_affine() const +{ + return i2anc_affine(this, nullptr); +} + +Geom::Affine SPItem::i2dt_affine() const +{ + return i2doc_affine() * document->doc2dt(); +} + +// TODO should be named "set_i2dt_affine" +void SPItem::set_i2d_affine(Geom::Affine const &i2dt) +{ + Geom::Affine dt2p; /* desktop to item parent transform */ + if (parent) { + dt2p = static_cast<SPItem *>(parent)->i2dt_affine().inverse(); + } else { + dt2p = document->dt2doc(); + } + + Geom::Affine const i2p( i2dt * dt2p ); + set_item_transform(i2p); +} + + +Geom::Affine SPItem::dt2i_affine() const +{ + /* fixme: Implement the right way (Lauris) */ + return i2dt_affine().inverse(); +} + +/* Item views */ + +Inkscape::DrawingItem *SPItem::get_arenaitem(unsigned key) +{ + for (auto &v : views) { + if (v.key == key) { + return v.drawingitem.get(); + } + } + return nullptr; +} + +int sp_item_repr_compare_position(SPItem const *first, SPItem const *second) +{ + return sp_repr_compare_position(first->getRepr(), + second->getRepr()); +} + +SPItem const *sp_item_first_item_child(SPObject const *obj) +{ + return sp_item_first_item_child( const_cast<SPObject *>(obj) ); +} + +SPItem *sp_item_first_item_child(SPObject *obj) +{ + SPItem *child = nullptr; + for (auto& iter: obj->children) { + auto tmp = cast<SPItem>(&iter); + if ( tmp ) { + child = tmp; + break; + } + } + return child; +} + +void SPItem::convert_to_guides() const { + Inkscape::Preferences *prefs = Inkscape::Preferences::get(); + int prefs_bbox = prefs->getInt("/tools/bounding_box", 0); + + Geom::OptRect bbox = (prefs_bbox == 0) ? desktopVisualBounds() : desktopGeometricBounds(); + if (!bbox) { + g_warning ("Cannot determine item's bounding box during conversion to guides.\n"); + return; + } + + std::list<std::pair<Geom::Point, Geom::Point> > pts; + + Geom::Point A((*bbox).min()); + Geom::Point C((*bbox).max()); + Geom::Point B(A[Geom::X], C[Geom::Y]); + Geom::Point D(C[Geom::X], A[Geom::Y]); + + pts.emplace_back(A, B); + pts.emplace_back(B, C); + pts.emplace_back(C, D); + pts.emplace_back(D, A); + + sp_guide_pt_pairs_to_guides(document, pts); +} + +void SPItem::rotate_rel(Geom::Rotate const &rotation) +{ + Geom::Point center = getCenter(); + Geom::Translate const s(getCenter()); + Geom::Affine affine = Geom::Affine(s).inverse() * Geom::Affine(rotation) * Geom::Affine(s); + + // Rotate item. + set_i2d_affine(i2dt_affine() * (Geom::Affine)affine); + // Use each item's own transform writer, consistent with sp_selection_apply_affine() + doWriteTransform(transform); + + // Restore the center position (it's changed because the bbox center changed) + if (isCenterSet()) { + setCenter(center * affine); + updateRepr(); + } +} + +void SPItem::scale_rel(Geom::Scale const &scale) +{ + Geom::OptRect bbox = desktopVisualBounds(); + if (bbox) { + Geom::Translate const s(bbox->midpoint()); // use getCenter? + set_i2d_affine(i2dt_affine() * s.inverse() * scale * s); + doWriteTransform(transform); + } +} + +void SPItem::skew_rel(double skewX, double skewY) +{ + Geom::Point center = getCenter(); + Geom::Translate const s(getCenter()); + + Geom::Affine const skew(1, skewY, skewX, 1, 0, 0); + Geom::Affine affine = Geom::Affine(s).inverse() * skew * Geom::Affine(s); + + set_i2d_affine(i2dt_affine() * affine); + doWriteTransform(transform); + + // Restore the center position (it's changed because the bbox center changed) + if (isCenterSet()) { + setCenter(center * affine); + updateRepr(); + } +} + +void SPItem::move_rel( Geom::Translate const &tr) +{ + set_i2d_affine(i2dt_affine() * tr); + + doWriteTransform(transform); +} + +/* + Local Variables: + mode:c++ + c-file-style:"stroustrup" + c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +)) + indent-tabs-mode:nil + fill-column:99 + End: +*/ +// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4 : |