X-Git-Url: https://git.tokkee.org/?a=blobdiff_plain;f=src%2Fseltrans.cpp;h=5ab99e147b5c76d517a70ce5dc1258564ce84dbc;hb=c87b166f1c3ba0af0656b0b634d1a444e6a316ff;hp=b95e70c4ae001285589e9870f7e64c9251c99590;hpb=e7333a0a54c8d33b7397406dd76938aa430836d5;p=inkscape.git diff --git a/src/seltrans.cpp b/src/seltrans.cpp index b95e70c4a..5ab99e147 100644 --- a/src/seltrans.cpp +++ b/src/seltrans.cpp @@ -3,12 +3,14 @@ /* * Helper object for transforming selected items * - * Author: + * Authors: * Lauris Kaplinski * bulia byak * Carl Hetherington + * Diederik van Lierop * * Copyright (C) 1999-2002 Lauris Kaplinski + * Copyright (C) 1999-2008 Authors * * Released under GNU GPL, read the file 'COPYING' for more information */ @@ -16,6 +18,8 @@ #ifdef HAVE_CONFIG_H # include #endif +#include +#include #include #include @@ -44,6 +48,8 @@ #include "display/sp-ctrlline.h" #include "prefs-utils.h" #include "xml/repr.h" +#include "mod360.h" +#include "2geom/angle.h" #include "isnan.h" //temp fix. make sure included last @@ -90,11 +96,17 @@ Inkscape::SelTrans::SelTrans(SPDesktop *desktop) : _show_handles(true), _bbox(NR::Nothing()), _approximate_bbox(NR::Nothing()), + _absolute_affine(NR::scale(1,1)), + _opposite(NR::Point(0,0)), + _opposite_for_specpoints(NR::Point(0,0)), + _opposite_for_bboxpoints(NR::Point(0,0)), + _origin_for_specpoints(NR::Point(0,0)), + _origin_for_bboxpoints(NR::Point(0,0)), _chandle(NULL), _stamp_cache(NULL), - _message_context(desktop->messageStack()) + _message_context(desktop->messageStack()) { - gchar const *prefs_bbox = prefs_get_string_attribute("tools.select", "bounding_box"); + gchar const *prefs_bbox = prefs_get_string_attribute("tools", "bounding_box"); _snap_bbox_type = (prefs_bbox != NULL && strcmp(prefs_bbox, "geometric")==0)? SPItem::GEOMETRIC_BBOX : SPItem::APPROXIMATE_BBOX; g_return_if_fail(desktop != NULL); @@ -105,7 +117,7 @@ Inkscape::SelTrans::SelTrans(SPDesktop *desktop) : } _updateVolatileState(); - _current.set_identity(); + _current_relative_affine.set_identity(); _center_is_set = false; // reread _center from items, or set to bbox midpoint @@ -241,7 +253,7 @@ void Inkscape::SelTrans::grab(NR::Point const &p, gdouble x, gdouble y, bool sho _grabbed = true; _show_handles = show_handles; _updateVolatileState(); - _current.set_identity(); + _current_relative_affine.set_identity(); _changed = false; @@ -255,22 +267,27 @@ void Inkscape::SelTrans::grab(NR::Point const &p, gdouble x, gdouble y, bool sho _items_centers.push_back(std::pair(it, it->getCenter())); // for content-dragging, we need to remember original centers } - _current.set_identity(); - - _point = p; - - // The selector tool should snap the bbox and the special snappoints, but not path nodes + _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 for snapping ... _bbox = selection->bounds(_snap_bbox_type); _approximate_bbox = selection->bounds(SPItem::APPROXIMATE_BBOX); // Used for correctly scaling the strokewidth + _geometric_bbox = selection->bounds(SPItem::GEOMETRIC_BBOX); + _point = p; + if (_geometric_bbox) { + _point_geom = _geometric_bbox->min() + _geometric_bbox->dimensions() * NR::scale(x, y); + } else { + _point_geom = p; + } - - // Next, get all special points for snapping + // Next, get all points to consider for snapping SnapManager const &m = _desktop->namedview->snap_manager; - _snap_points = selection->getSnapPoints(m.getIncludeItemCenter()); // Excludes path nodes - std::vector snap_points_hull = selection->getSnapPointsConvexHull(); // Includes path nodes + _snap_points = selection->getSnapPoints(m.getIncludeItemCenter()); + std::vector snap_points_hull = selection->getSnapPointsConvexHull(); if (_snap_points.size() > 100) { /* Snapping a huge number of nodes will take way too long, so limit the number of snappable nodes An average user would rarely ever try to snap such a large number of nodes anyway, because @@ -303,11 +320,10 @@ void Inkscape::SelTrans::grab(NR::Point const &p, gdouble x, gdouble y, bool sho // - 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 #1540195 (in which - // a box is caught between to guides) + // These distinct "opposites" are needed in the snapmanager to avoid bugs such as #sf1540195 (in which + // a box is caught between two guides) _opposite_for_bboxpoints = _bbox->min() + _bbox->dimensions() * NR::scale(1-x, 1-y); - _opposite_for_specpoints = (snap_points_bbox.min() + (snap_points_bbox.dimensions() * NR::scale(1-x, 1-y) ) ); - // Only a single "opposite" can be used in calculating transformations. + _opposite_for_specpoints = snap_points_bbox.min() + snap_points_bbox.dimensions() * NR::scale(1-x, 1-y); _opposite = _opposite_for_bboxpoints; } @@ -366,7 +382,7 @@ void Inkscape::SelTrans::transform(NR::Matrix const &rel_affine, NR::Point const } } - _current = affine; + _current_relative_affine = affine; _changed = true; _updateHandles(); } @@ -400,20 +416,20 @@ void Inkscape::SelTrans::ungrab() _message_context.clear(); if (!_empty && _changed) { - sp_selection_apply_affine(selection, _current, (_show == SHOW_OUTLINE)? true : false); + sp_selection_apply_affine(selection, _current_relative_affine, (_show == SHOW_OUTLINE)? true : false); if (_center) { - *_center *= _current; + *_center *= _current_relative_affine; _center_is_set = true; } // If dragging showed content live, sp_selection_apply_affine cannot change the centers // appropriately - it does not know the original positions of the centers (all objects already have // the new bboxes). So we need to reset the centers from our saved array. - if (_show != SHOW_OUTLINE && !_current.is_translation()) { + if (_show != SHOW_OUTLINE && !_current_relative_affine.is_translation()) { for (unsigned i = 0; i < _items_centers.size(); i++) { SPItem *currentItem = _items_centers[i].first; if (currentItem->isCenterSet()) { // only if it's already set - currentItem->setCenter (_items_centers[i].second * _current); + currentItem->setCenter (_items_centers[i].second * _current_relative_affine); SP_OBJECT(currentItem)->updateRepr(); } } @@ -422,13 +438,13 @@ void Inkscape::SelTrans::ungrab() _items.clear(); _items_centers.clear(); - if (_current.is_translation()) { + if (_current_relative_affine.is_translation()) { sp_document_done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT, _("Move")); - } else if (_current.is_scale()) { + } else if (_current_relative_affine.is_scale()) { sp_document_done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT, _("Scale")); - } else if (_current.is_rotation()) { + } else if (_current_relative_affine.is_rotation()) { sp_document_done(sp_desktop_document(_desktop), SP_VERB_CONTEXT_SELECT, _("Rotate")); } else { @@ -501,7 +517,7 @@ void Inkscape::SelTrans::stamp() NR::Matrix const *new_affine; if (_show == SHOW_OUTLINE) { NR::Matrix const i2d(sp_item_i2d_affine(original_item)); - NR::Matrix const i2dnew( i2d * _current ); + NR::Matrix const i2dnew( i2d * _current_relative_affine ); sp_item_set_i2d_affine(copy_item, i2dnew); new_affine = ©_item->transform; } else { @@ -511,7 +527,7 @@ void Inkscape::SelTrans::stamp() sp_item_write_transform(copy_item, copy_repr, *new_affine); if ( copy_item->isCenterSet() && _center ) { - copy_item->setCenter(*_center * _current); + copy_item->setCenter(*_center * _current_relative_affine); } Inkscape::GC::release(copy_repr); @@ -766,6 +782,9 @@ gboolean Inkscape::SelTrans::handleRequest(SPKnot *knot, NR::Point *position, gu knot->desktop->setPosition(*position); + // 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 != &handle_center)) { _origin = _opposite; _origin_for_bboxpoints = _opposite_for_bboxpoints; @@ -792,12 +811,12 @@ void Inkscape::SelTrans::_selChanged(Inkscape::Selection */*selection*/) { if (!_grabbed) { // reread in case it changed on the fly: - gchar const *prefs_bbox = prefs_get_string_attribute("tools.select", "bounding_box"); + gchar const *prefs_bbox = prefs_get_string_attribute("tools", "bounding_box"); _snap_bbox_type = (prefs_bbox != NULL && strcmp(prefs_bbox, "geometric")==0)? SPItem::GEOMETRIC_BBOX : SPItem::APPROXIMATE_BBOX; //SPItem::APPROXIMATE_BBOX will be replaced by SPItem::VISUAL_BBOX, as soon as the latter is implemented properly _updateVolatileState(); - _current.set_identity(); + _current_relative_affine.set_identity(); _center_is_set = false; // center(s) may have changed _updateHandles(); } @@ -807,7 +826,7 @@ void Inkscape::SelTrans::_selModified(Inkscape::Selection */*selection*/, guint { if (!_grabbed) { _updateVolatileState(); - _current.set_identity(); + _current_relative_affine.set_identity(); // reset internal flag _changed = false; @@ -862,326 +881,310 @@ gboolean sp_sel_trans_center_request(Inkscape::SelTrans *seltrans, gboolean Inkscape::SelTrans::scaleRequest(NR::Point &pt, guint state) { - using NR::X; - using NR::Y; - - NR::Point d = _point - _origin; - NR::scale s(0, 0); - - /* Work out the new scale factors `s' */ - for ( unsigned int i = 0 ; i < 2 ; i++ ) { - if ( fabs(d[i]) > 0.001 ) { - s[i] = ( pt[i] - _origin[i] ) / d[i]; - if ( fabs(s[i]) < 1e-9 ) { - s[i] = 1e-9; - } - } - } - + + // 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) + NR::scale default_scale = calcScaleFactors(_point, pt, _origin); + + // Find the scale factors for the geometric bbox + NR::Point pt_geom = _getGeomHandlePos(pt); + NR::scale geom_scale = calcScaleFactors(_point_geom, pt_geom, _origin_for_specpoints); + + _absolute_affine = NR::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(s[i]) > 1) - s[i] = round(s[i]); - else - s[i] = 1/round(1/(MIN(s[i], 10))); + 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))); + } } - } - - SnapManager const &m = _desktop->namedview->snap_manager; - - /* Get a STL list of the selected items. - ** FIXME: this should probably be done by Inkscape::Selection. - */ - std::list it; - for (GSList const *i = _selection->itemList(); i != NULL; i = i->next) { - it.push_back(reinterpret_cast(i->data)); - } - - 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(s[NR::X]) > fabs(s[NR::Y])) { - s[NR::X] = fabs(s[NR::Y]) * sign(s[NR::X]); + // 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 const &m = _desktop->namedview->snap_manager; + + /* Get a STL list of the selected items. + ** FIXME: this should probably be done by Inkscape::Selection. + */ + std::list it; + for (GSList const *i = _selection->itemList(); i != NULL; i = i->next) { + it.push_back(reinterpret_cast(i->data)); + } + + std::pair bb = std::make_pair(NR::scale(1,1), false); + std::pair sn = std::make_pair(NR::scale(1,1), false); + NR::Coord bd(NR_HUGE); + NR::Coord sd(NR_HUGE); + + 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[NR::X]) > fabs(default_scale[NR::Y])) { + default_scale[NR::X] = fabs(default_scale[NR::Y]) * sign(default_scale[NR::X]); + geom_scale[NR::X] = fabs(geom_scale[NR::Y]) * sign(geom_scale[NR::X]); } else { - s[NR::Y] = fabs(s[NR::X]) * sign(s[NR::Y]); + default_scale[NR::Y] = fabs(default_scale[NR::X]) * sign(default_scale[NR::Y]); + geom_scale[NR::Y] = fabs(geom_scale[NR::X]) * sign(geom_scale[NR::Y]); } - // Snap along a suitable constraint vector from the origin. - - // The inclination of the constraint vector is calculated from the aspect ratio - NR::Point bbox_dim = _bbox->dimensions(); - double const aspect_ratio = bbox_dim[1] / bbox_dim[0]; // = height / width - - // Determine direction of the constraint vector - NR::Point const cv = NR::Point( - pt[NR::X] > _origin[NR::X] ? 1 : -1, - pt[NR::Y] > _origin[NR::Y] ? aspect_ratio : -aspect_ratio - ); - - std::pair bb = m.constrainedSnapScale(Snapper::SNAPPOINT_BBOX, - _bbox_points, - it, - Snapper::ConstraintLine(_origin_for_bboxpoints, cv), - s, - _origin_for_bboxpoints); - - std::pair sn = m.constrainedSnapScale(Snapper::SNAPPOINT_NODE, - _snap_points, - it, - Snapper::ConstraintLine(_origin_for_specpoints, cv), - s, - _origin_for_specpoints); - - if (bb.second == false && sn.second == false) { - /* We didn't snap, so just keep the locked aspect ratio */ - } else { + // Snap along a suitable constraint vector from the origin. + bb = m.constrainedSnapScale(Snapper::SNAPPOINT_BBOX, _bbox_points, it, default_scale, _origin_for_bboxpoints); + sn = m.constrainedSnapScale(Snapper::SNAPPOINT_NODE, _snap_points, it, geom_scale, _origin_for_specpoints); + /* Choose the smaller difference in scale. Since s[X] == s[Y] we can ** just compare difference in s[X]. */ - double const bd = bb.second ? fabs(bb.first[NR::X] - s[NR::X]) : NR_HUGE; - double const sd = sn.second ? fabs(sn.first[NR::X] - s[NR::X]) : NR_HUGE; - s = (bd < sd) ? bb.first : sn.first; + bd = bb.second ? fabs(bb.first[NR::X] - default_scale[NR::X]) : NR_HUGE; + sd = sn.second ? fabs(sn.first[NR::X] - geom_scale[NR::X]) : NR_HUGE; + } else { + /* Scale aspect ratio is unlocked */ + bb = m.freeSnapScale(Snapper::SNAPPOINT_BBOX, _bbox_points, it, default_scale, _origin_for_bboxpoints); + sn = m.freeSnapScale(Snapper::SNAPPOINT_NODE, _snap_points, it, geom_scale, _origin_for_specpoints); + + /* Pick the snap that puts us closest to the original scale */ + bd = bb.second ? fabs(NR::L2(bb.first.point()) - NR::L2(default_scale.point())) : NR_HUGE; + sd = sn.second ? fabs(NR::L2(sn.first.point()) - NR::L2(geom_scale.point())) : NR_HUGE; } - - } else { - /* Scale aspect ratio is unlocked */ - - std::pair bb = m.freeSnapScale(Snapper::SNAPPOINT_BBOX, - _bbox_points, - it, - s, - _origin_for_bboxpoints); - std::pair sn = m.freeSnapScale(Snapper::SNAPPOINT_NODE, - _snap_points, - it, - s, - _origin_for_specpoints); - - /* Pick the snap that puts us closest to the original scale */ - NR::Coord bd = bb.second ? - fabs(NR::L2(NR::Point(bb.first[NR::X], bb.first[NR::Y])) - - NR::L2(NR::Point(s[NR::X], s[NR::Y]))) - : NR_HUGE; - NR::Coord sd = sn.second ? - fabs(NR::L2(NR::Point(sn.first[NR::X], sn.first[NR::Y])) - - NR::L2(NR::Point(s[NR::X], s[NR::Y]))) - : NR_HUGE; - s = (bd < sd) ? bb.first : sn.first; - } - - /* Update the knot position */ - pt = ( _point - _origin ) * s + _origin; - + + if (!(bb.second || sn.second)) { + // We didn't snap at all! Don't update the handle position, just calculate the new transformation + _calcAbsAffineDefault(default_scale); + } else if (bd < sd) { + // We snapped the bbox (which is either visual or geometric) + default_scale = bb.first; + // Calculate the new transformation and update the handle position + pt = _calcAbsAffineDefault(default_scale); + } else { + // 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 = sn.first; + pt = _calcAbsAffineGeom(geom_scale); + } + } + /* Status text */ _message_context.setF(Inkscape::NORMAL_MESSAGE, _("Scale: %0.2f%% x %0.2f%%; with Ctrl to lock ratio"), - 100 * s[NR::X], 100 * s[NR::Y]); + 100 * _absolute_affine[0], 100 * _absolute_affine[3]); return TRUE; } gboolean Inkscape::SelTrans::stretchRequest(SPSelTransHandle const &handle, NR::Point &pt, guint state) { - using NR::X; - using NR::Y; - NR::Dim2 axis, perp; - switch (handle.cursor) { case GDK_TOP_SIDE: case GDK_BOTTOM_SIDE: - axis = NR::Y; - perp = NR::X; - break; + axis = NR::Y; + perp = NR::X; + break; case GDK_LEFT_SIDE: case GDK_RIGHT_SIDE: - axis = NR::X; - perp = NR::Y; - break; + axis = NR::X; + perp = NR::Y; + break; default: g_assert_not_reached(); return TRUE; }; - if ( fabs( _point[axis] - _origin[axis] ) < 1e-15 ) { - return FALSE; - } - - NR::scale s(1, 1); - s[axis] = ( ( pt[axis] - _origin[axis] ) - / ( _point[axis] - _origin[axis] ) ); - if ( fabs(s[axis]) < 1e-15 ) { - s[axis] = 1e-15; - } - - if (state & GDK_MOD1_MASK) { // scale by an integer multiplier/divider - if (fabs(s[axis]) > 1) - s[axis] = round(s[axis]); - else - s[axis] = 1/round(1/(MIN(s[axis], 10))); - } - - /* Get a STL list of the selected items. - ** FIXME: this should probably be done by Inkscape::Selection. - */ - std::list it; - for (GSList const *i = _selection->itemList(); i != NULL; i = i->next) { - it.push_back(reinterpret_cast(i->data)); - } - - SnapManager const &m = _desktop->namedview->snap_manager; - - if ( state & GDK_CONTROL_MASK ) { - // on ctrl, apply symmetrical scaling instead of stretching - s[perp] = fabs(s[axis]); - - std::pair const bb = m.freeSnapStretch( - Snapper::SNAPPOINT_BBOX, - _bbox_points, - it, - s[axis], - _origin_for_bboxpoints, - axis, - true); - - std::pair const sn = m.freeSnapStretch( - Snapper::SNAPPOINT_NODE, - _snap_points, - it, - s[axis], - _origin_for_specpoints, - axis, - true); - - NR::Coord const bd = bb.second ? fabs(bb.first - s[axis]) : NR_HUGE; - NR::Coord const sd = sn.second ? fabs(sn.first - s[axis]) : NR_HUGE; - NR::Coord const ratio = (bd < sd) ? bb.first : sn.first; - - s[axis] = fabs(ratio) * sign(s[axis]); - s[perp] = fabs(s[axis]); + // 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) + NR::scale default_scale = calcScaleFactors(_point, pt, _origin); + default_scale[perp] = 1; + + // Find the scale factors for the geometric bbox + NR::Point pt_geom = _getGeomHandlePos(pt); + NR::scale geom_scale = calcScaleFactors(_point_geom, pt_geom, _origin_for_specpoints); + geom_scale[perp] = 1; + + _absolute_affine = NR::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 { - - std::pair const bb = m.freeSnapStretch( - Snapper::SNAPPOINT_BBOX, - _bbox_points, - it, - s[axis], - _origin_for_bboxpoints, - axis, - false); - - std::pair const sn = m.freeSnapStretch( - Snapper::SNAPPOINT_NODE, - _snap_points, - it, - s[axis], - _origin_for_specpoints, - axis, - false); - - /* Choose the smaller difference in scale */ - NR::Coord const bd = bb.second ? fabs(bb.first - s[axis]) : NR_HUGE; - NR::Coord const sd = sn.second ? fabs(sn.first - s[axis]) : NR_HUGE; - s[axis] = (bd < sd) ? bb.first : sn.first; - s[perp] = 1; - } - - pt = ( _point - _origin ) * NR::scale(s) + _origin; - if (isNaN(pt[X] + pt[Y])) { - g_warning("point=(%g, %g), norm=(%g, %g), s=(%g, %g)\n", - _point[X], _point[Y], _origin[X], _origin[Y], s[X], s[Y]); + // In all other cases we should try to snap now + + /* Get a STL list of the selected items. + ** FIXME: this should probably be done by Inkscape::Selection. + */ + std::list it; + for (GSList const *i = _selection->itemList(); i != NULL; i = i->next) { + it.push_back(reinterpret_cast(i->data)); + } + + SnapManager const &m = _desktop->namedview->snap_manager; + + std::pair bb = std::make_pair(NR_HUGE, false); + std::pair sn = std::make_pair(NR_HUGE, false); + NR::Coord bd(NR_HUGE); + NR::Coord sd(NR_HUGE); + + bool symmetrical = state & GDK_CONTROL_MASK; + + bb = m.constrainedSnapStretch(Snapper::SNAPPOINT_BBOX, _bbox_points, it, default_scale[axis], _origin_for_bboxpoints, axis, symmetrical); + sn = m.constrainedSnapStretch(Snapper::SNAPPOINT_NODE, _snap_points, it, geom_scale[axis], _origin_for_specpoints, axis, symmetrical); + + if (bb.second) { + // We snapped the bbox (which is either visual or geometric) + bd = fabs(bb.first - default_scale[axis]); + default_scale[axis] = bb.first; + } + + if (sn.second) { + sd = fabs(sn.first - geom_scale[axis]); + geom_scale[axis] = sn.first; + } + + 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.second || sn.second)) { + // We didn't snap at all! Don't update the handle position, just calculate the new transformation + _calcAbsAffineDefault(default_scale); + } else if (bd < sd) { + // Calculate the new transformation and update the handle position + pt = _calcAbsAffineDefault(default_scale); + } else { + // 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); + } } - + // status text _message_context.setF(Inkscape::NORMAL_MESSAGE, _("Scale: %0.2f%% x %0.2f%%; with Ctrl to lock ratio"), - 100 * s[NR::X], 100 * s[NR::Y]); + 100 * _absolute_affine[0], 100 * _absolute_affine[3]); return TRUE; } gboolean Inkscape::SelTrans::skewRequest(SPSelTransHandle const &handle, NR::Point &pt, guint state) { - using NR::X; - using NR::Y; - - if (handle.cursor != GDK_SB_V_DOUBLE_ARROW && handle.cursor != GDK_SB_H_DOUBLE_ARROW) { - return FALSE; - } - + /* When skewing (or rotating): + * 1) the stroke width will not change. This makes life much easier because we don't have to + * account for that (like for scaling or stretching). As a consequence, all points will + * have the same origin for the transformation and for the snapping. + * 2) When holding shift, 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 + */ + NR::Dim2 dim_a; NR::Dim2 dim_b; - if (handle.cursor == GDK_SB_V_DOUBLE_ARROW) { - dim_a = X; - dim_b = Y; - } else { - dim_a = Y; - dim_b = X; + + switch (handle.cursor) { + case GDK_SB_H_DOUBLE_ARROW: + dim_a = NR::Y; + dim_b = NR::X; + break; + case GDK_SB_V_DOUBLE_ARROW: + dim_a = NR::X; + dim_b = NR::Y; + break; + default: + g_assert_not_reached(); + abort(); + break; } - - double skew[2]; - double s[2] = { 1.0, 1.0 }; - - if (fabs(_point[dim_a] - _origin[dim_a]) < NR_EPSILON) { - return FALSE; + + NR::Point const initial_delta = _point - _origin; + + if (fabs(initial_delta[dim_a]) < 1e-15) { + return false; } - skew[dim_a] = ( pt[dim_b] - _point[dim_b] ) / ( _point[dim_a] - _origin[dim_a] ); - - s[dim_a] = ( pt[dim_a] - _origin[dim_a] ) / ( _point[dim_a] - _origin[dim_a] ); + // 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) + NR::scale scale = calcScaleFactors(_point, pt, _origin, false); + NR::scale skew = calcScaleFactors(_point, pt, _origin, true); + scale[dim_b] = 1; + skew[dim_b] = 1; - if ( fabs(s[dim_a]) < 1 ) { - s[dim_a] = sign(s[dim_a]); + if (fabs(scale[dim_a]) < 1) { + // Prevent shrinking of the selected object, while allowing mirroring + scale[dim_a] = sign(scale[dim_a]); } else { - s[dim_a] = floor( s[dim_a] + 0.5 ); + // Allow expanding of the selected object by integer multiples + scale[dim_a] = floor(scale[dim_a] + 0.5); } - double radians = atan(skew[dim_a] / s[dim_a]); - + double radians = atan(skew[dim_a] / scale[dim_a]); + if (state & GDK_CONTROL_MASK) { - + // Snap to defined angle increments int snaps = prefs_get_int_attribute("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; + 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) * s[dim_a]; + skew[dim_a] = tan(radians) * scale[dim_a]; } else { + // Snap to objects, grids, guides + + /* Get a STL list of the selected items. + ** FIXME: this should probably be done by Inkscape::Selection. + */ + std::list it; + for (GSList const *i = _selection->itemList(); i != NULL; i = i->next) { + it.push_back(reinterpret_cast(i->data)); + } + SnapManager const &m = _desktop->namedview->snap_manager; - std::pair bb = m.freeSnapSkew(Inkscape::Snapper::SNAPPOINT_BBOX, - _bbox_points, - std::list(), - skew[dim_a], - _origin_for_bboxpoints, - dim_b); - - std::pair sn = m.freeSnapSkew(Inkscape::Snapper::SNAPPOINT_NODE, - _snap_points, - std::list(), - skew[dim_a], - _origin_for_specpoints, - dim_b); + std::pair bb = m.freeSnapSkew(Inkscape::Snapper::SNAPPOINT_BBOX, _bbox_points, it, skew[dim_a], _origin, dim_b); + std::pair sn = m.freeSnapSkew(Inkscape::Snapper::SNAPPOINT_NODE, _snap_points, it, skew[dim_a], _origin, dim_b); if (bb.second || sn.second) { - /* We snapped something, so change the skew to reflect it */ + // We snapped something, so change the skew to reflect it NR::Coord const bd = bb.second ? bb.first : NR_HUGE; NR::Coord const sd = sn.second ? sn.first : NR_HUGE; skew[dim_a] = std::min(bd, sd); - } + } } - pt[dim_b] = ( _point[dim_a] - _origin[dim_a] ) * skew[dim_a] + _point[dim_b]; - pt[dim_a] = ( _point[dim_a] - _origin[dim_a] ) * s[dim_a] + _origin[dim_a]; - - /* status text */ - double degrees = 180 / M_PI * radians; - if (degrees > 180) degrees -= 360; - if (degrees < -180) degrees += 360; + // 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 = NR::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::NORMAL_MESSAGE, // TRANSLATORS: don't modify the first ";" // (it will NOT be displayed as ";" - only the second one will be) @@ -1193,22 +1196,30 @@ gboolean Inkscape::SelTrans::skewRequest(SPSelTransHandle const &handle, NR::Poi gboolean Inkscape::SelTrans::rotateRequest(NR::Point &pt, guint state) { + /* When rotating (or skewing): + * 1) the stroke width will not change. This makes life much easier because we don't have to + * account for that (like for scaling or stretching). As a consequence, all points will + * have the same origin for the transformation and for the snapping. + * 2) When holding shift, 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 + */ + int snaps = prefs_get_int_attribute("options.rotationsnapsperpi", "value", 12); // rotate affine in rotate NR::Point const d1 = _point - _origin; NR::Point const d2 = pt - _origin; - NR::Coord const h1 = NR::L2(d1); + NR::Coord const h1 = NR::L2(d1); // initial radius if (h1 < 1e-15) return FALSE; - NR::Point q1 = d1 / h1; - NR::Coord const h2 = NR::L2(d2); + NR::Point q1 = d1 / h1; // normalized initial vector to handle + NR::Coord const h2 = NR::L2(d2); // new radius if (fabs(h2) < 1e-15) return FALSE; - NR::Point q2 = d2 / h2; + NR::Point q2 = d2 / h2; // normalized new vector to handle double radians; if (state & GDK_CONTROL_MASK) { - /* Have to restrict movement. */ + // Snap to defined angle increments double cos_t = NR::dot(q1, q2); double sin_t = NR::dot(NR::rot90(q1), q2); radians = atan2(sin_t, cos_t); @@ -1224,13 +1235,15 @@ gboolean Inkscape::SelTrans::rotateRequest(NR::Point &pt, guint state) NR::rotate const r1(q1); NR::rotate const r2(q2); - pt = _point * NR::translate(-_origin) * ( r2 / r1 ) * NR::translate(_origin); - - /* status text */ - double degrees = 180 / M_PI * radians; - if (degrees > 180) degrees -= 360; - if (degrees < -180) degrees += 360; - + + // Calculate the relative affine + _relative_affine = NR::Matrix(r2/r1); + + // Update the handle position + pt = _point * NR::translate(-_origin) * _relative_affine * NR::translate(_origin); + + // Update the status text + double degrees = mod360symm(Geom::rad_to_deg(radians)); _message_context.setF(Inkscape::NORMAL_MESSAGE, // TRANSLATORS: don't modify the first ";" // (it will NOT be displayed as ";" - only the second one will be) @@ -1241,17 +1254,14 @@ gboolean Inkscape::SelTrans::rotateRequest(NR::Point &pt, guint state) gboolean Inkscape::SelTrans::centerRequest(NR::Point &pt, guint state) { - using NR::X; - using NR::Y; - SnapManager const &m = _desktop->namedview->snap_manager; pt = m.freeSnap(Snapper::SNAPPOINT_NODE, pt, NULL).getPoint(); if (state & GDK_CONTROL_MASK) { - if ( fabs(_point[X] - pt[X]) > fabs(_point[Y] - pt[Y]) ) { - pt[Y] = _point[Y]; + if ( fabs(_point[NR::X] - pt[NR::X]) > fabs(_point[NR::Y] - pt[NR::Y]) ) { + pt[NR::Y] = _point[NR::Y]; } else { - pt[X] = _point[X]; + pt[NR::X] = _point[NR::X]; } } @@ -1275,8 +1285,8 @@ gboolean Inkscape::SelTrans::centerRequest(NR::Point &pt, guint state) } // status text - GString *xs = SP_PX_TO_METRIC_STRING(pt[X], _desktop->namedview->getDefaultMetric()); - GString *ys = SP_PX_TO_METRIC_STRING(pt[Y], _desktop->namedview->getDefaultMetric()); + GString *xs = SP_PX_TO_METRIC_STRING(pt[NR::X], _desktop->namedview->getDefaultMetric()); + GString *ys = SP_PX_TO_METRIC_STRING(pt[NR::Y], _desktop->namedview->getDefaultMetric()); _message_context.setF(Inkscape::NORMAL_MESSAGE, _("Move center to %s, %s"), xs->str, ys->str); g_string_free(xs, FALSE); g_string_free(ys, FALSE); @@ -1311,151 +1321,22 @@ void sp_sel_trans_rotate(Inkscape::SelTrans *seltrans, SPSelTransHandle const &, void Inkscape::SelTrans::stretch(SPSelTransHandle const &handle, NR::Point &pt, guint state) { - using NR::X; - using NR::Y; - - NR::Dim2 dim; - switch (handle.cursor) { - case GDK_LEFT_SIDE: - case GDK_RIGHT_SIDE: - dim = X; - break; - case GDK_TOP_SIDE: - case GDK_BOTTOM_SIDE: - dim = Y; - break; - default: - g_assert_not_reached(); - abort(); - break; - } - - NR::Point const scale_origin(_origin); - double const offset = _point[dim] - scale_origin[dim]; - if (!( fabs(offset) >= 1e-15 )) { - return; - } - NR::scale s(1, 1); - s[dim] = ( pt[dim] - scale_origin[dim] ) / offset; - if (isNaN(s[dim])) { - g_warning("s[dim]=%g, pt[dim]=%g, scale_origin[dim]=%g, point[dim]=%g\n", - s[dim], pt[dim], scale_origin[dim], _point[dim]); - } - if (!( fabs(s[dim]) >= 1e-15 )) { - s[dim] = 1e-15; - } - if (state & GDK_CONTROL_MASK) { - /* Preserve aspect ratio, but never flip in the dimension not being edited. */ - s[!dim] = fabs(s[dim]); - } - - if (!_bbox) { - return; - } - - NR::Point new_bbox_min = _approximate_bbox->min() * (NR::translate(-scale_origin) * NR::Matrix(s) * NR::translate(scale_origin)); - NR::Point new_bbox_max = _approximate_bbox->max() * (NR::translate(-scale_origin) * NR::Matrix(s) * NR::translate(scale_origin)); - - int transform_stroke = false; - gdouble strokewidth = 0; - - if ( _snap_bbox_type != SPItem::GEOMETRIC_BBOX) { - transform_stroke = prefs_get_int_attribute ("options.transform", "stroke", 1); - strokewidth = _strokewidth; - } - - NR::Matrix scaler = get_scale_transform_with_stroke (*_approximate_bbox, strokewidth, transform_stroke, - new_bbox_min[NR::X], new_bbox_min[NR::Y], new_bbox_max[NR::X], new_bbox_max[NR::Y]); - - transform(scaler, NR::Point(0, 0)); // we have already accounted for origin, so pass 0,0 + transform(_absolute_affine, NR::Point(0, 0)); // we have already accounted for origin, so pass 0,0 } void Inkscape::SelTrans::scale(NR::Point &pt, guint /*state*/) { - if (!_bbox) { - return; - } - - NR::Point const offset = _point - _origin; - - NR::scale s (1, 1); - for (int i = NR::X; i <= NR::Y; i++) { - if (fabs(offset[i]) > 1e-9) - s[i] = (pt[i] - _origin[i]) / offset[i]; - if (fabs(s[i]) < 1e-9) - s[i] = 1e-9; - } - - NR::Point new_bbox_min = _approximate_bbox->min() * (NR::translate(-_origin) * NR::Matrix(s) * NR::translate(_origin)); - NR::Point new_bbox_max = _approximate_bbox->max() * (NR::translate(-_origin) * NR::Matrix(s) * NR::translate(_origin)); - - int transform_stroke = false; - gdouble strokewidth = 0; - - if ( _snap_bbox_type != SPItem::GEOMETRIC_BBOX) { - transform_stroke = prefs_get_int_attribute ("options.transform", "stroke", 1); - strokewidth = _strokewidth; - } - - NR::Matrix scaler = get_scale_transform_with_stroke (*_approximate_bbox, strokewidth, transform_stroke, - new_bbox_min[NR::X], new_bbox_min[NR::Y], new_bbox_max[NR::X], new_bbox_max[NR::Y]); - - transform(scaler, NR::Point(0, 0)); // we have already accounted for origin, so pass 0,0 + transform(_absolute_affine, NR::Point(0, 0)); // we have already accounted for origin, so pass 0,0 } void Inkscape::SelTrans::skew(SPSelTransHandle const &handle, NR::Point &pt, guint /*state*/) { - NR::Point const offset = _point - _origin; - - unsigned dim; - switch (handle.cursor) { - case GDK_SB_H_DOUBLE_ARROW: - dim = NR::Y; - break; - case GDK_SB_V_DOUBLE_ARROW: - dim = NR::X; - break; - default: - g_assert_not_reached(); - abort(); - break; - } - if (fabs(offset[dim]) < 1e-15) { - return; - } - NR::Matrix skew = NR::identity(); - skew[2*dim + dim] = (pt[dim] - _origin[dim]) / offset[dim]; - skew[2*dim + (1-dim)] = (pt[1-dim] - _point[1-dim]) / offset[dim]; - skew[2*(1-dim) + (dim)] = 0; - skew[2*(1-dim) + (1-dim)] = 1; - - for (int i = 0; i < 2; i++) { - if (fabs(skew[3*i]) < 1e-15) { - skew[3*i] = 1e-15; - } - } - transform(skew, _origin); + transform(_relative_affine, _origin); } void Inkscape::SelTrans::rotate(NR::Point &pt, guint /*state*/) { - NR::Point const offset = _point - _origin; - - NR::Coord const h1 = NR::L2(offset); - if (h1 < 1e-15) { - return; - } - NR::Point const q1 = offset / h1; - NR::Coord const h2 = NR::L2( pt - _origin ); - if (h2 < 1e-15) { - return; - } - NR::Point const q2 = (pt - _origin) / h2; - NR::rotate const r1(q1); - NR::rotate const r2(q2); - - NR::Matrix rotate( r2 / r1 ); - transform(rotate, _origin); + transform(_relative_affine, _origin); } void sp_sel_trans_center(Inkscape::SelTrans *seltrans, SPSelTransHandle const &, NR::Point &pt, guint /*state*/) @@ -1571,6 +1452,96 @@ void Inkscape::SelTrans::moveTo(NR::Point const &xy, guint state) g_string_free(ys, TRUE); } +// Given a location of a handle at the visual bounding box, find the corresponding location at the +// geometrical bounding box +NR::Point Inkscape::SelTrans::_getGeomHandlePos(NR::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 NR::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_with_stroke() + NR::Rect new_bbox = NR::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) + NR::Point normalized_handle_pos = (visual_handle_pos - new_bbox.min()) * NR::scale(new_bbox.dimensions()).inverse(); + + // Calculate the absolute affine while taking into account the scaling of the stroke width + int transform_stroke = prefs_get_int_attribute ("options.transform", "stroke", 1); + NR::Matrix abs_affine = get_scale_transform_with_stroke (*_bbox, _strokewidth, transform_stroke, + new_bbox.min()[NR::X], new_bbox.min()[NR::Y], new_bbox.max()[NR::X], new_bbox.max()[NR::Y]); + + // Calculate the scaled geometrical bbox + NR::Rect new_geom_bbox = NR::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 * NR::scale(new_geom_bbox.dimensions()) + new_geom_bbox.min(); //new position of the geometric handle +} + +NR::scale Inkscape::calcScaleFactors(NR::Point const &initial_point, NR::Point const &new_point, NR::Point const &origin, bool const skew) +{ + // Work out the new scale factors for the bbox + + NR::Point const initial_delta = initial_point - origin; + NR::Point const new_delta = new_point - origin; + NR::Point const offset = new_point - initial_point; + NR::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; +} + +// Only for scaling/stretching +NR::Point Inkscape::SelTrans::_calcAbsAffineDefault(NR::scale const default_scale) +{ + NR::Matrix abs_affine = NR::translate(-_origin) * NR::Matrix(default_scale) * NR::translate(_origin); + NR::Point new_bbox_min = _approximate_bbox->min() * abs_affine; + NR::Point new_bbox_max = _approximate_bbox->max() * abs_affine; + + int transform_stroke = false; + gdouble strokewidth = 0; + + if ( _snap_bbox_type != SPItem::GEOMETRIC_BBOX) { + transform_stroke = prefs_get_int_attribute ("options.transform", "stroke", 1); + strokewidth = _strokewidth; + } + + _absolute_affine = get_scale_transform_with_stroke (*_approximate_bbox, strokewidth, transform_stroke, + new_bbox_min[NR::X], new_bbox_min[NR::Y], new_bbox_max[NR::X], new_bbox_max[NR::Y]); + + // return the new handle position + return ( _point - _origin ) * default_scale + _origin; +} + +// Only for scaling/stretching +NR::Point Inkscape::SelTrans::_calcAbsAffineGeom(NR::scale const geom_scale) +{ + _relative_affine = NR::Matrix(geom_scale); + _absolute_affine = NR::translate(-_origin_for_specpoints) * _relative_affine * NR::translate(_origin_for_specpoints); + + bool const transform_stroke = prefs_get_int_attribute ("options.transform", "stroke", 1); + NR::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() * NR::scale(_handle_x, _handle_y); +} + /* Local Variables: