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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-13 11:50:49 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-13 11:50:49 +0000 |
commit | c853ffb5b2f75f5a889ed2e3ef89b818a736e87a (patch) | |
tree | 7d13a0883bb7936b84d6ecdd7bc332b41ed04bee /src/ui/knot/knot-holder-entity.cpp | |
parent | Initial commit. (diff) | |
download | inkscape-c853ffb5b2f75f5a889ed2e3ef89b818a736e87a.tar.xz inkscape-c853ffb5b2f75f5a889ed2e3ef89b818a736e87a.zip |
Adding upstream version 1.3+ds.upstream/1.3+dsupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/ui/knot/knot-holder-entity.cpp')
-rw-r--r-- | src/ui/knot/knot-holder-entity.cpp | 633 |
1 files changed, 633 insertions, 0 deletions
diff --git a/src/ui/knot/knot-holder-entity.cpp b/src/ui/knot/knot-holder-entity.cpp new file mode 100644 index 0000000..e75c628 --- /dev/null +++ b/src/ui/knot/knot-holder-entity.cpp @@ -0,0 +1,633 @@ +// SPDX-License-Identifier: GPL-2.0-or-later +/* + * KnotHolderEntity definition. + * + * Authors: + * Mitsuru Oka <oka326@parkcity.ne.jp> + * Maximilian Albert <maximilian.albert@gmail.com> + * Abhishek Sharma + * + * Copyright (C) 1999-2001 Lauris Kaplinski + * Copyright (C) 2000-2001 Ximian, Inc. + * Copyright (C) 2001 Mitsuru Oka + * Copyright (C) 2004 Monash University + * Copyright (C) 2008 Maximilian Albert + * + * Released under GNU GPL v2+, read the file 'COPYING' for more information. + */ + +#include "knot-holder-entity.h" + +#include "desktop.h" +#include "display/control/canvas-item-ctrl.h" +#include "inkscape.h" +#include "knot-holder.h" +#include "live_effects/effect.h" +#include "object/sp-hatch.h" +#include "object/sp-item.h" +#include "object/sp-marker.h" +#include "object/sp-namedview.h" +#include "object/sp-pattern.h" +#include "object/filters/gaussian-blur.h" +#include "preferences.h" +#include "snap.h" +#include "style.h" +#include "object/sp-marker.h" + +#include "display/control/canvas-item-ctrl.h" +#include <glibmm/i18n.h> + +void KnotHolderEntity::create(SPDesktop *desktop, SPItem *item, KnotHolder *parent, + Inkscape::CanvasItemCtrlType type, + Glib::ustring const & name, + const gchar *tip, guint32 color) +{ + if (!desktop) { + desktop = parent->getDesktop(); + } + + g_assert(item == parent->getItem()); + g_assert(desktop && desktop == parent->getDesktop()); + g_assert(knot == nullptr); + + parent_holder = parent; + this->item = item; // TODO: remove the item either from here or from knotholder.cpp + this->desktop = desktop; + + my_counter = KnotHolderEntity::counter++; + + knot = new SPKnot(desktop, tip, type, name); + knot->fill [SP_KNOT_STATE_NORMAL] = color; + knot->ctrl->set_fill(color); + on_created(); + update_knot(); + knot->show(); + + _mousedown_connection = knot->mousedown_signal.connect(sigc::mem_fun(*parent_holder, &KnotHolder::knot_mousedown_handler)); + _moved_connection = knot->moved_signal.connect(sigc::mem_fun(*parent_holder, &KnotHolder::knot_moved_handler)); + _click_connection = knot->click_signal.connect(sigc::mem_fun(*parent_holder, &KnotHolder::knot_clicked_handler)); + _ungrabbed_connection = knot->ungrabbed_signal.connect(sigc::mem_fun(*parent_holder, &KnotHolder::knot_ungrabbed_handler)); +} + +KnotHolderEntity::~KnotHolderEntity() +{ + _mousedown_connection.disconnect(); + _moved_connection.disconnect(); + _click_connection.disconnect(); + _ungrabbed_connection.disconnect(); + + /* unref should call destroy */ + if (knot) { + //g_object_unref(knot); + knot_unref(knot); + } else { + // FIXME: This shouldn't occur. Perhaps it is caused by LPE PointParams being knotholder entities, too + // If so, it will likely be fixed with upcoming refactoring efforts. + g_return_if_fail(knot); + } +} + +void +KnotHolderEntity::update_knot() +{ + Geom::Point knot_pos(knot_get()); + if (knot_pos.isFinite()) { + Geom::Point dp(knot_pos * parent_holder->getEditTransform() * item->i2dt_affine()); + + _moved_connection.block(); + knot->setPosition(dp, SP_KNOT_STATE_NORMAL); + _moved_connection.unblock(); + } else { + // knot coords are non-finite, hide knot + knot->hide(); + } +} + +Geom::Point +KnotHolderEntity::snap_knot_position(Geom::Point const &p, guint state) +{ + if (state & GDK_SHIFT_MASK) { // Don't snap when shift-key is held + return p; + } + + Geom::Affine const i2dt (parent_holder->getEditTransform() * item->i2dt_affine()); + Geom::Point s = p * i2dt; + + if (!desktop) std::cerr << "No desktop" << std::endl; + if (!desktop->namedview) std::cerr << "No named view" << std::endl; + SnapManager &m = desktop->namedview->snap_manager; + m.setup(desktop, true, item); + m.freeSnapReturnByRef(s, Inkscape::SNAPSOURCE_NODE_HANDLE); + m.unSetup(); + + return s * i2dt.inverse(); +} + +Geom::Point +KnotHolderEntity::snap_knot_position_constrained(Geom::Point const &p, Inkscape::Snapper::SnapConstraint const &constraint, guint state) +{ + if (state & GDK_SHIFT_MASK) { // Don't snap when shift-key is held + return p; + } + + Geom::Affine const i2d (parent_holder->getEditTransform() * item->i2dt_affine()); + Geom::Point s = p * i2d; + + SnapManager &m = desktop->namedview->snap_manager; + m.setup(desktop, true, item); + + // constrainedSnap() will first project the point p onto the constraint line and then try to snap along that line. + // This way the constraint is already enforced, no need to worry about that later on + Inkscape::Snapper::SnapConstraint transformed_constraint = Inkscape::Snapper::SnapConstraint(constraint.getPoint() * i2d, (constraint.getPoint() + constraint.getDirection()) * i2d - constraint.getPoint() * i2d); + m.constrainedSnapReturnByRef(s, Inkscape::SNAPSOURCE_NODE_HANDLE, transformed_constraint); + m.unSetup(); + + return s * i2d.inverse(); +} + +void +LPEKnotHolderEntity::knot_ungrabbed(Geom::Point const &p, Geom::Point const &origin, guint state) +{ + if (_effect) { + _effect->refresh_widgets = true; + _effect->makeUndoDone(_("Move handle")); + } +} + +/* Pattern manipulation */ + +void PatternKnotHolderEntity::on_created() +{ + // Setup an initial pattern transformation in the center + if (auto rect = item->documentGeometricBounds()) { + _cell = offset_to_cell(rect->midpoint()); + } +} + +/** + * Returns the position based on the pattern's origin, shifted by the percent x/y of it's size. + */ +Geom::Point PatternKnotHolderEntity::_get_pos(gdouble x, gdouble y, bool transform) const +{ + auto pat = _pattern(); + auto pt = Geom::Point((_cell[Geom::X] + x) * pat->width(), + (_cell[Geom::Y] + y) * pat->height()); + return transform ? pt * pat->getTransform() : pt; +} + +bool PatternKnotHolderEntity::set_item_clickpos(Geom::Point loc) +{ + _cell = offset_to_cell(loc); + update_knot(); + return true; +} + +void PatternKnotHolderEntity::update_knot() { + KnotHolderEntity::update_knot(); +} + +Geom::IntPoint PatternKnotHolderEntity::offset_to_cell(Geom::Point loc) const { + auto pat = _pattern(); + + // 1. Turn the location into the pattern grid coordinate + auto scale = Geom::Scale(pat->width(), pat->height()); + auto d2i = item->i2doc_affine().inverse(); + auto i2p = pat->getTransform().inverse(); + + // Get grid index of nearest pattern repetition. + return (loc * d2i * i2p * scale.inverse()).floor(); +} + + +SPPattern *PatternKnotHolderEntity::_pattern() const +{ + return _fill ? cast<SPPattern>(item->style->getFillPaintServer()) : cast<SPPattern>(item->style->getStrokePaintServer()); +} + +bool PatternKnotHolderEntity::knot_missing() const +{ + return !_pattern(); +} + +/* Pattern X/Y knot */ + +void PatternKnotHolderEntityXY::on_created() +{ + PatternKnotHolderEntity::on_created(); + // TODO: Move to constructor when desktop is generally available + _quad = make_canvasitem<Inkscape::CanvasItemQuad>(desktop->getCanvasControls()); + _quad->lower_to_bottom(); + _quad->set_fill(0x00000000); + _quad->set_stroke(0x808080ff); + _quad->set_inverted(true); + _quad->hide(); +} + +void PatternKnotHolderEntityXY::update_knot() +{ + PatternKnotHolderEntity::update_knot(); + auto tr = item->i2dt_affine(); + _quad->set_coords(_get_pos(0, 0) * tr, _get_pos(0, 1) * tr, + _get_pos(1, 1) * tr, _get_pos(1, 0) * tr); + _quad->show(); +} + +Geom::Point PatternKnotHolderEntityXY::knot_get() const +{ + return _get_pos(0, 0); +} + +void +PatternKnotHolderEntityXY::knot_set(Geom::Point const &p, Geom::Point const &origin, guint state) +{ + // FIXME: this snapping should be done together with knowing whether control was pressed. If GDK_CONTROL_MASK, then constrained snapping should be used. + Geom::Point p_snapped = snap_knot_position(p, state); + + if ( state & GDK_CONTROL_MASK ) { + if (fabs((p - origin)[Geom::X]) > fabs((p - origin)[Geom::Y])) { + p_snapped[Geom::Y] = origin[Geom::Y]; + } else { + p_snapped[Geom::X] = origin[Geom::X]; + } + } + + if (state) { + Geom::Point const q = p_snapped - knot_get(); + item->adjust_pattern(Geom::Translate(q), false, _fill ? TRANSFORM_FILL : TRANSFORM_STROKE); + } + + item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); +} + +/* Pattern Angle knot */ + +Geom::Point PatternKnotHolderEntityAngle::knot_get() const +{ + return _get_pos(1.0, 0); +} + +void +PatternKnotHolderEntityAngle::knot_set(Geom::Point const &p, Geom::Point const &/*origin*/, guint state) +{ + Inkscape::Preferences *prefs = Inkscape::Preferences::get(); + int const snaps = prefs->getInt("/options/rotationsnapsperpi/value", 12); + + // get the angle from pattern 0,0 to the cursor pos + Geom::Point transform_origin = _get_pos(0, 0); + gdouble theta = atan2(p - transform_origin); + gdouble theta_old = atan2(knot_get() - transform_origin); + + if ( state & GDK_CONTROL_MASK ) { + /* Snap theta */ + double snaps_radian = M_PI/snaps; + theta = std::round(theta/snaps_radian) * snaps_radian; + } + + Geom::Affine rot = Geom::Translate(-transform_origin) + * Geom::Rotate(theta - theta_old) + * Geom::Translate(transform_origin); + item->adjust_pattern(rot, false, _fill ? TRANSFORM_FILL : TRANSFORM_STROKE); + item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); +} + +/* Pattern scale knot */ + +Geom::Point PatternKnotHolderEntityScale::knot_get() const +{ + return _get_pos(1.0, 1.0); +} + +/** Store pattern geometry info when the scale knot is first grabbed. */ +void PatternKnotHolderEntityScale::knot_grabbed(Geom::Point const &grab_pos, unsigned) +{ + _cached_transform = _pattern()->getTransform(); + _cached_origin = _get_pos(0, 0); + _cached_inverse_linear = _cached_transform.withoutTranslation().inverse(); + _cached_diagonal = (grab_pos - _cached_origin) * _cached_inverse_linear; + + if (auto bounding_box = item->documentVisualBounds()) { + // Compare the areas of the pattern and the item to find the number of repetitions. + double const pattern_area = std::abs(_cached_diagonal[Geom::X] * _cached_diagonal[Geom::Y]); + double const item_area = bounding_box->area() * _cached_inverse_linear.descrim2() / + (item->i2doc_affine().descrim2() ?: 1e-3); + _cached_min_scale = std::sqrt(item_area / (pattern_area * MAX_REPETITIONS)); + } else { + _cached_min_scale = 1e-6; + } +} + +void +PatternKnotHolderEntityScale::knot_set(Geom::Point const &p, Geom::Point const &, guint state) +{ + using namespace Geom; + // FIXME: this snapping should be done together with knowing whether control was pressed. + // If GDK_CONTROL_MASK, then constrained snapping should be used. + Point p_snapped = snap_knot_position(p, state); + + Point const new_extent = (p_snapped - _cached_origin) * _cached_inverse_linear; + + // 1. Calculate absolute scale factor first + double scale_x = std::clamp(new_extent[X] / _cached_diagonal[X], _cached_min_scale, 1e9); + double scale_y = std::clamp(new_extent[Y] / _cached_diagonal[Y], _cached_min_scale, 1e9); + + Affine new_transform = (state & GDK_CONTROL_MASK) ? Scale(lerp(0.5, scale_x, scale_y)) + : Scale(scale_x, scale_y); + + // 2. Calculate offset to keep pattern origin aligned + new_transform *= _cached_transform; + auto const new_uncompensated_origin = _get_pos(0, 0, false) * new_transform; + new_transform *= Translate(_cached_origin - new_uncompensated_origin); + + item->adjust_pattern(new_transform, true, _fill ? TRANSFORM_FILL : TRANSFORM_STROKE); + item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); +} + +/* Hatch manipulation */ +bool HatchKnotHolderEntity::knot_missing() const +{ + SPHatch *hatch = _hatch(); + return (hatch == nullptr); +} + +SPHatch *HatchKnotHolderEntity::_hatch() const +{ + return _fill ? cast<SPHatch>(item->style->getFillPaintServer()) : cast<SPHatch>(item->style->getStrokePaintServer()); +} + +static Geom::Point sp_hatch_knot_get(SPHatch const *hatch, gdouble x, gdouble y) +{ + return Geom::Point(x, y) * hatch->hatchTransform(); +} + +Geom::Point HatchKnotHolderEntityXY::knot_get() const +{ + SPHatch *hatch = _hatch(); + return sp_hatch_knot_get(hatch, 0, 0); +} + +Geom::Point HatchKnotHolderEntityAngle::knot_get() const +{ + SPHatch *hatch = _hatch(); + return sp_hatch_knot_get(hatch, hatch->pitch(), 0); +} + +Geom::Point HatchKnotHolderEntityScale::knot_get() const +{ + SPHatch *hatch = _hatch(); + return sp_hatch_knot_get(hatch, hatch->pitch(), hatch->pitch()); +} + +void HatchKnotHolderEntityXY::knot_set(Geom::Point const &p, Geom::Point const &origin, unsigned int state) +{ + Geom::Point p_snapped = snap_knot_position(p, state); + + if (state & GDK_CONTROL_MASK) { + if (fabs((p - origin)[Geom::X]) > fabs((p - origin)[Geom::Y])) { + p_snapped[Geom::Y] = origin[Geom::Y]; + } else { + p_snapped[Geom::X] = origin[Geom::X]; + } + } + + if (state) { + Geom::Point const q = p_snapped - knot_get(); + item->adjust_hatch(Geom::Translate(q), false, _fill ? TRANSFORM_FILL : TRANSFORM_STROKE); + } + + item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); +} + +void HatchKnotHolderEntityAngle::knot_set(Geom::Point const &p, Geom::Point const &origin, unsigned int state) +{ + Inkscape::Preferences *prefs = Inkscape::Preferences::get(); + int const snaps = prefs->getInt("/options/rotationsnapsperpi/value", 12); + + SPHatch *hatch = _hatch(); + + // get the angle from hatch 0,0 to the cursor pos + Geom::Point transform_origin = sp_hatch_knot_get(hatch, 0, 0); + gdouble theta = atan2(p - transform_origin); + gdouble theta_old = atan2(knot_get() - transform_origin); + + if (state & GDK_CONTROL_MASK) { + /* Snap theta */ + double snaps_radian = M_PI/snaps; + theta = std::round(theta/snaps_radian) * snaps_radian; + } + + Geom::Affine rot = + Geom::Translate(-transform_origin) * Geom::Rotate(theta - theta_old) * Geom::Translate(transform_origin); + item->adjust_hatch(rot, false, _fill ? TRANSFORM_FILL : TRANSFORM_STROKE); + item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); +} + +void HatchKnotHolderEntityScale::knot_set(Geom::Point const &p, Geom::Point const &origin, unsigned int state) +{ + SPHatch *hatch = _hatch(); + + // FIXME: this snapping should be done together with knowing whether control was pressed. + // If GDK_CONTROL_MASK, then constrained snapping should be used. + Geom::Point p_snapped = snap_knot_position(p, state); + + // Get the new scale from the position of the knotholder + Geom::Affine transform = hatch->hatchTransform(); + Geom::Affine transform_inverse = transform.inverse(); + Geom::Point d = p_snapped * transform_inverse; + Geom::Point d_origin = origin * transform_inverse; + Geom::Point origin_dt; + gdouble hatch_pitch = hatch->pitch(); + if (state & GDK_CONTROL_MASK) { + // if ctrl is pressed: use 1:1 scaling + d = d_origin * (d.length() / d_origin.length()); + } + + Geom::Affine scale = Geom::Translate(-origin_dt) * Geom::Scale(d.x() / hatch_pitch, d.y() / hatch_pitch) * + Geom::Translate(origin_dt) * transform; + + item->adjust_hatch(scale, true, _fill ? TRANSFORM_FILL : TRANSFORM_STROKE); + item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); +} + +/* Filter visible size manipulation */ +void FilterKnotHolderEntity::knot_set(Geom::Point const &p, Geom::Point const &origin, unsigned int state) +{ + // FIXME: this snapping should be done together with knowing whether control was pressed. If GDK_CONTROL_MASK, then constrained snapping should be used. + Geom::Point p_snapped = snap_knot_position(p, state); + + if ( state & GDK_CONTROL_MASK ) { + if (fabs((p - origin)[Geom::X]) > fabs((p - origin)[Geom::Y])) { + p_snapped[Geom::Y] = origin[Geom::Y]; + } else { + p_snapped[Geom::X] = origin[Geom::X]; + } + } + + if (state) { + SPFilter *filter = (item->style) ? item->style->getFilter() : nullptr; + if(!filter) return; + Geom::OptRect orig_bbox = item->visualBounds(); + std::unique_ptr<Geom::Rect> new_bbox(_topleft ? new Geom::Rect(p,orig_bbox->max()) : new Geom::Rect(orig_bbox->min(), p)); + + if (!filter->width._set) { + filter->width.set(SVGLength::PERCENT, 1.2); + } + if (!filter->height._set) { + filter->height.set(SVGLength::PERCENT, 1.2); + } + if (!filter->x._set) { + filter->x.set(SVGLength::PERCENT, -0.1); + } + if (!filter->y._set) { + filter->y.set(SVGLength::PERCENT, -0.1); + } + + if(_topleft) { + float x_a = filter->width.computed; + float y_a = filter->height.computed; + filter->height.scale(new_bbox->height()/orig_bbox->height()); + filter->width.scale(new_bbox->width()/orig_bbox->width()); + float x_b = filter->width.computed; + float y_b = filter->height.computed; + filter->x.set(filter->x.unit, filter->x.computed + x_a - x_b); + filter->y.set(filter->y.unit, filter->y.computed + y_a - y_b); + } else { + filter->height.scale(new_bbox->height()/orig_bbox->height()); + filter->width.scale(new_bbox->width()/orig_bbox->width()); + } + filter->auto_region = false; + filter->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); + + } + + item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); +} + +Geom::Point FilterKnotHolderEntity::knot_get() const +{ + SPFilter *filter = (item->style) ? item->style->getFilter() : nullptr; + if(!filter) return Geom::Point(Geom::infinity(), Geom::infinity()); + Geom::OptRect r = item->visualBounds(); + if (_topleft) return Geom::Point(r->min()); + else return Geom::Point(r->max()); +} + +/* Blur manipulation */ + +void BlurKnotHolderEntity::on_created() +{ + KnotHolderEntity::on_created(); + // TODO: Move to constructor when desktop is generally available + + _line = make_canvasitem<Inkscape::CanvasItemCurve>(desktop->getCanvasControls()); + _line->set_z_position(0); + _line->set_stroke(0x0033cccc); + _line->hide(); + + // This watcher makes sure that adding or removing a blur results in updated knots. + _watch_filter = item->style->signal_filter_changed.connect([=] (auto old_obj, auto obj) { + update_knot(); + }); +} + +void BlurKnotHolderEntity::update_knot() +{ + auto blur = _blur(); + if (blur) { + knot->show(); + // This watcher makes sure anything outside that modifies the blur changes the knot. + _watch_blur = blur->connectModified([=](auto item, int flags) { + KnotHolderEntity::update_knot(); + }); + + } else { + knot->hide(); + _watch_blur.disconnect(); + _line->hide(); + } + KnotHolderEntity::update_knot(); +} + + + +/* Return the first blur primitive of any applied filter. */ +SPGaussianBlur *BlurKnotHolderEntity::_blur() const +{ + if (auto filter = item->style->getFilter()) { + for (auto &primitive : filter->children) { + if (auto blur = cast<SPGaussianBlur>(&primitive)) { + return blur; + } + } + } + return nullptr; +} + +Geom::Point BlurKnotHolderEntity::_pos() const +{ + auto box = item->bbox(Geom::identity(), SPItem::VISUAL_BBOX); + if (_dir == Geom::Y) { + return Geom::Point(box->midpoint()[Geom::X], box->top()); + } + return Geom::Point(box->right(), box->midpoint()[Geom::Y]); +} + +Geom::Point BlurKnotHolderEntity::knot_get() const +{ + auto blur = _blur(); + if (!blur) + return Geom::Point(0, 0); + + // First let's find where the gradient is + auto tr = item->i2dt_affine(); + auto dev = blur->get_std_deviation(); + + // Blur visibility is 2.4 times the deviation in that direction. + double x = dev.getNumber(); + double y = dev.getOptNumber(true); + + auto p0 = _pos(); + auto p1 = p0 + Geom::Point(x * 2.4, 0); + if (_dir == Geom::Y) { + p1 = p0 - Geom::Point(0, y * 2.4); + } + _line->show(); + _line->set_coords(p0 * tr, p1 * tr); + + return p1; +} +void BlurKnotHolderEntity::knot_set(Geom::Point const &p, Geom::Point const &origin, guint state) +{ + auto blur = _blur(); + if (!blur) + return; + + NumberOptNumber dev = blur->get_std_deviation(); + auto dp = Geom::Point(dev.getNumber(), dev.getOptNumber(true)); + auto val = std::max(0.0, (((p - _pos()) * Geom::Scale(1, -1))[_dir]) / 2.4); + + if (state & GDK_CONTROL_MASK) { + if (state & GDK_SHIFT_MASK) { + dp[!_dir] *= (val / dp[_dir]); + } else { + dp[!_dir] = val; + } + } + dp[_dir] = val; + + // When X is set to zero the Opt blur disapears + dev.setNumber(std::max(0.001, dp[Geom::X])); + dev.setOptNumber(std::max(0.0, dp[Geom::Y])); + + blur->set_deviation(dev); +} + +/* + 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:fileencoding=utf-8:textwidth=99 : |