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-rw-r--r--src/ui/tools/flood-tool.cpp1239
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diff --git a/src/ui/tools/flood-tool.cpp b/src/ui/tools/flood-tool.cpp
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+// SPDX-License-Identifier: GPL-2.0-or-later
+/**
+ * @file
+ * Bucket fill drawing context, works by bitmap filling an area on a rendered version
+ * of the current display and then tracing the result using potrace.
+ */
+/* Author:
+ * Lauris Kaplinski <lauris@kaplinski.com>
+ * bulia byak <buliabyak@users.sf.net>
+ * John Bintz <jcoswell@coswellproductions.org>
+ * Jon A. Cruz <jon@joncruz.org>
+ * Abhishek Sharma
+ *
+ * Copyright (C) 2006 Johan Engelen <johan@shouraizou.nl>
+ * Copyright (C) 2000-2005 authors
+ * Copyright (C) 2000-2001 Ximian, Inc.
+ *
+ * Released under GNU GPL v2+, read the file 'COPYING' for more information.
+ */
+
+#include "flood-tool.h"
+
+#include <cmath>
+#include <queue>
+
+#include <gdk/gdkkeysyms.h>
+#include <glibmm/i18n.h>
+
+#include <2geom/pathvector.h>
+
+#include "color.h"
+#include "context-fns.h"
+#include "desktop-style.h"
+#include "desktop.h"
+#include "document-undo.h"
+#include "document.h"
+#include "layer-manager.h"
+#include "message-context.h"
+#include "message-stack.h"
+#include "rubberband.h"
+#include "selection.h"
+#include "page-manager.h"
+
+#include "display/cairo-utils.h"
+#include "display/drawing-context.h"
+#include "display/drawing-image.h"
+#include "display/drawing.h"
+
+#include "include/macros.h"
+
+#include "livarot/Path.h"
+#include "livarot/Shape.h"
+
+#include "object/sp-namedview.h"
+#include "object/sp-path.h"
+#include "object/sp-root.h"
+
+#include "svg/svg.h"
+
+#include "trace/imagemap.h"
+#include "trace/potrace/inkscape-potrace.h"
+
+#include "ui/icon-names.h"
+#include "ui/shape-editor.h"
+#include "ui/widget/canvas.h" // Canvas area
+
+#include "xml/node-event-vector.h"
+
+using Inkscape::DocumentUndo;
+
+using Inkscape::Display::ExtractARGB32;
+using Inkscape::Display::ExtractRGB32;
+using Inkscape::Display::AssembleARGB32;
+
+namespace Inkscape {
+namespace UI {
+namespace Tools {
+
+// TODO: Replace by C++11 initialization
+// Must match PaintBucketChannels enum
+Glib::ustring ch_init[8] = {
+ _("Visible Colors"),
+ _("Red"),
+ _("Green"),
+ _("Blue"),
+ _("Hue"),
+ _("Saturation"),
+ _("Lightness"),
+ _("Alpha"),
+};
+const std::vector<Glib::ustring> FloodTool::channel_list( ch_init, ch_init+8 );
+
+Glib::ustring gap_init[4] = {
+ NC_("Flood autogap", "None"),
+ NC_("Flood autogap", "Small"),
+ NC_("Flood autogap", "Medium"),
+ NC_("Flood autogap", "Large")
+};
+const std::vector<Glib::ustring> FloodTool::gap_list( gap_init, gap_init+4 );
+
+FloodTool::FloodTool(SPDesktop *desktop)
+ : ToolBase(desktop, "/tools/paintbucket", "flood.svg")
+ , item(nullptr)
+{
+ // TODO: Why does the flood tool use a hardcoded tolerance instead of a pref?
+ this->tolerance = 4;
+
+ this->shape_editor = new ShapeEditor(desktop);
+
+ SPItem *item = desktop->getSelection()->singleItem();
+ if (item) {
+ this->shape_editor->set_item(item);
+ }
+
+ this->sel_changed_connection.disconnect();
+ this->sel_changed_connection = desktop->getSelection()->connectChanged(
+ sigc::mem_fun(this, &FloodTool::selection_changed)
+ );
+
+ Inkscape::Preferences *prefs = Inkscape::Preferences::get();
+
+ if (prefs->getBool("/tools/paintbucket/selcue")) {
+ this->enableSelectionCue();
+ }
+}
+
+FloodTool::~FloodTool() {
+ this->sel_changed_connection.disconnect();
+
+ delete shape_editor;
+ shape_editor = nullptr;
+
+ /* fixme: This is necessary because we do not grab */
+ if (this->item) {
+ this->finishItem();
+ }
+}
+
+/**
+ * Callback that processes the "changed" signal on the selection;
+ * destroys old and creates new knotholder.
+ */
+void FloodTool::selection_changed(Inkscape::Selection* selection) {
+ this->shape_editor->unset_item();
+ this->shape_editor->set_item(selection->singleItem());
+}
+
+// Changes from 0.48 -> 0.49 (Cairo)
+// 0.49: Ignores alpha in background
+// 0.48: RGBA, 0.49 ARGB
+// 0.49: premultiplied alpha
+inline static guint32 compose_onto(guint32 px, guint32 bg)
+{
+ guint ap = 0, rp = 0, gp = 0, bp = 0;
+ guint rb = 0, gb = 0, bb = 0;
+ ExtractARGB32(px, ap, rp, gp, bp);
+ ExtractRGB32(bg, rb, gb, bb);
+
+ // guint ao = 255*255 - (255-ap)*(255-bp); ao = (ao + 127) / 255;
+ // guint ao = (255-ap)*ab + 255*ap; ao = (ao + 127) / 255;
+ guint ao = 255; // Cairo version doesn't allow background to have alpha != 1.
+ guint ro = (255-ap)*rb + 255*rp; ro = (ro + 127) / 255;
+ guint go = (255-ap)*gb + 255*gp; go = (go + 127) / 255;
+ guint bo = (255-ap)*bb + 255*bp; bo = (bo + 127) / 255;
+
+ guint pxout = AssembleARGB32(ao, ro, go, bo);
+ return pxout;
+}
+
+/**
+ * Get the pointer to a pixel in a pixel buffer.
+ * @param px The pixel buffer.
+ * @param x The X coordinate.
+ * @param y The Y coordinate.
+ * @param stride The rowstride of the pixel buffer.
+ */
+inline guint32 get_pixel(guchar *px, int x, int y, int stride) {
+ return *reinterpret_cast<guint32*>(px + y * stride + x * 4);
+}
+
+inline unsigned char * get_trace_pixel(guchar *trace_px, int x, int y, int width) {
+ return trace_px + (x + y * width);
+}
+
+/**
+ * \brief Check whether two unsigned integers are close to each other
+ *
+ * \param[in] a The 1st unsigned int
+ * \param[in] b The 2nd unsigned int
+ * \param[in] d The threshold for comparison
+ *
+ * \return true if |a-b| <= d; false otherwise
+ */
+static bool compare_guint32(guint32 const a, guint32 const b, guint32 const d)
+{
+ const int difference = std::abs(static_cast<int>(a) - static_cast<int>(b));
+ return difference <= d;
+}
+
+/**
+ * Compare a pixel in a pixel buffer with another pixel to determine if a point should be included in the fill operation.
+ * @param check The pixel in the pixel buffer to check.
+ * @param orig The original selected pixel to use as the fill target color.
+ * @param merged_orig_pixel The original pixel merged with the background.
+ * @param dtc The desktop background color.
+ * @param threshold The fill threshold.
+ * @param method The fill method to use as defined in PaintBucketChannels.
+ */
+static bool compare_pixels(guint32 check, guint32 orig, guint32 merged_orig_pixel, guint32 dtc, int threshold, PaintBucketChannels method)
+{
+ float hsl_check[3] = {0,0,0}, hsl_orig[3] = {0,0,0};
+
+ guint32 ac = 0, rc = 0, gc = 0, bc = 0;
+ ExtractARGB32(check, ac, rc, gc, bc);
+
+ guint32 ao = 0, ro = 0, go = 0, bo = 0;
+ ExtractARGB32(orig, ao, ro, go, bo);
+
+ guint32 ad = 0, rd = 0, gd = 0, bd = 0;
+ ExtractARGB32(dtc, ad, rd, gd, bd);
+
+ guint32 amop = 0, rmop = 0, gmop = 0, bmop = 0;
+ ExtractARGB32(merged_orig_pixel, amop, rmop, gmop, bmop);
+
+ if ((method == FLOOD_CHANNELS_H) ||
+ (method == FLOOD_CHANNELS_S) ||
+ (method == FLOOD_CHANNELS_L)) {
+ double dac = ac;
+ double dao = ao;
+ SPColor::rgb_to_hsl_floatv(hsl_check, rc / dac, gc / dac, bc / dac);
+ SPColor::rgb_to_hsl_floatv(hsl_orig, ro / dao, go / dao, bo / dao);
+ }
+
+ switch (method) {
+ case FLOOD_CHANNELS_ALPHA:
+ return compare_guint32(ac, ao, threshold);
+ case FLOOD_CHANNELS_R:
+ return compare_guint32(ac ? unpremul_alpha(rc, ac) : 0,
+ ao ? unpremul_alpha(ro, ao) : 0,
+ threshold);
+ case FLOOD_CHANNELS_G:
+ return compare_guint32(ac ? unpremul_alpha(gc, ac) : 0,
+ ao ? unpremul_alpha(go, ao) : 0,
+ threshold);
+ case FLOOD_CHANNELS_B:
+ return compare_guint32(ac ? unpremul_alpha(bc, ac) : 0,
+ ao ? unpremul_alpha(bo, ao) : 0,
+ threshold);
+ case FLOOD_CHANNELS_RGB:
+ {
+ guint32 amc, rmc, bmc, gmc;
+ //amc = 255*255 - (255-ac)*(255-ad); amc = (amc + 127) / 255;
+ //amc = (255-ac)*ad + 255*ac; amc = (amc + 127) / 255;
+ amc = 255; // Why are we looking at desktop? Cairo version ignores destop alpha
+ rmc = (255-ac)*rd + 255*rc; rmc = (rmc + 127) / 255;
+ gmc = (255-ac)*gd + 255*gc; gmc = (gmc + 127) / 255;
+ bmc = (255-ac)*bd + 255*bc; bmc = (bmc + 127) / 255;
+
+ int diff = 0; // The total difference between each of the 3 color components
+ diff += std::abs(static_cast<int>(amc ? unpremul_alpha(rmc, amc) : 0) - static_cast<int>(amop ? unpremul_alpha(rmop, amop) : 0));
+ diff += std::abs(static_cast<int>(amc ? unpremul_alpha(gmc, amc) : 0) - static_cast<int>(amop ? unpremul_alpha(gmop, amop) : 0));
+ diff += std::abs(static_cast<int>(amc ? unpremul_alpha(bmc, amc) : 0) - static_cast<int>(amop ? unpremul_alpha(bmop, amop) : 0));
+ return ((diff / 3) <= ((threshold * 3) / 4));
+ }
+ case FLOOD_CHANNELS_H:
+ return ((int)(fabs(hsl_check[0] - hsl_orig[0]) * 100.0) <= threshold);
+ case FLOOD_CHANNELS_S:
+ return ((int)(fabs(hsl_check[1] - hsl_orig[1]) * 100.0) <= threshold);
+ case FLOOD_CHANNELS_L:
+ return ((int)(fabs(hsl_check[2] - hsl_orig[2]) * 100.0) <= threshold);
+ }
+
+ return false;
+}
+
+enum {
+ PIXEL_CHECKED = 1,
+ PIXEL_QUEUED = 2,
+ PIXEL_PAINTABLE = 4,
+ PIXEL_NOT_PAINTABLE = 8,
+ PIXEL_COLORED = 16
+};
+
+static inline bool is_pixel_checked(unsigned char *t) { return (*t & PIXEL_CHECKED) == PIXEL_CHECKED; }
+static inline bool is_pixel_queued(unsigned char *t) { return (*t & PIXEL_QUEUED) == PIXEL_QUEUED; }
+static inline bool is_pixel_paintability_checked(unsigned char *t) {
+ return !((*t & PIXEL_PAINTABLE) == 0) && ((*t & PIXEL_NOT_PAINTABLE) == 0);
+}
+static inline bool is_pixel_paintable(unsigned char *t) { return (*t & PIXEL_PAINTABLE) == PIXEL_PAINTABLE; }
+static inline bool is_pixel_colored(unsigned char *t) { return (*t & PIXEL_COLORED) == PIXEL_COLORED; }
+
+static inline void mark_pixel_checked(unsigned char *t) { *t |= PIXEL_CHECKED; }
+static inline void mark_pixel_queued(unsigned char *t) { *t |= PIXEL_QUEUED; }
+static inline void mark_pixel_paintable(unsigned char *t) { *t |= PIXEL_PAINTABLE; *t ^= PIXEL_NOT_PAINTABLE; }
+static inline void mark_pixel_not_paintable(unsigned char *t) { *t |= PIXEL_NOT_PAINTABLE; *t ^= PIXEL_PAINTABLE; }
+static inline void mark_pixel_colored(unsigned char *t) { *t |= PIXEL_COLORED; }
+
+static inline void clear_pixel_paintability(unsigned char *t) { *t ^= PIXEL_PAINTABLE; *t ^= PIXEL_NOT_PAINTABLE; }
+
+struct bitmap_coords_info {
+ bool is_left;
+ unsigned int x;
+ unsigned int y;
+ int y_limit;
+ unsigned int width;
+ unsigned int height;
+ unsigned int stride;
+ unsigned int threshold;
+ unsigned int radius;
+ PaintBucketChannels method;
+ guint32 dtc;
+ guint32 merged_orig_pixel;
+ Geom::Rect bbox;
+ Geom::Rect screen;
+ unsigned int max_queue_size;
+ unsigned int current_step;
+};
+
+/**
+ * Check if a pixel can be included in the fill.
+ * @param px The rendered pixel buffer to check.
+ * @param trace_t The pixel in the trace pixel buffer to check or mark.
+ * @param x The X coordinate.
+ * @param y The y coordinate.
+ * @param orig_color The original selected pixel to use as the fill target color.
+ * @param bci The bitmap_coords_info structure.
+ */
+inline static bool check_if_pixel_is_paintable(guchar *px, unsigned char *trace_t, int x, int y, guint32 orig_color, bitmap_coords_info bci) {
+ if (is_pixel_paintability_checked(trace_t)) {
+ return is_pixel_paintable(trace_t);
+ } else {
+ guint32 pixel = get_pixel(px, x, y, bci.stride);
+ if (compare_pixels(pixel, orig_color, bci.merged_orig_pixel, bci.dtc, bci.threshold, bci.method)) {
+ mark_pixel_paintable(trace_t);
+ return true;
+ } else {
+ mark_pixel_not_paintable(trace_t);
+ return false;
+ }
+ }
+}
+
+/**
+ * Perform the bitmap-to-vector tracing and place the traced path onto the document.
+ * @param px The trace pixel buffer to trace to SVG.
+ * @param desktop The desktop on which to place the final SVG path.
+ * @param transform The transform to apply to the final SVG path.
+ * @param union_with_selection If true, merge the final SVG path with the current selection.
+ */
+static void do_trace(bitmap_coords_info bci, guchar *trace_px, SPDesktop *desktop, Geom::Affine transform, unsigned int min_x, unsigned int max_x, unsigned int min_y, unsigned int max_y, bool union_with_selection) {
+ SPDocument *document = desktop->getDocument();
+
+ unsigned char *trace_t;
+
+ GrayMap *gray_map = GrayMapCreate((max_x - min_x + 1), (max_y - min_y + 1));
+ if (!gray_map) {
+ desktop->messageStack()->flash(Inkscape::ERROR_MESSAGE, _("Failed mid-operation, no objects created."));
+ return;
+ }
+ unsigned int gray_map_y = 0;
+ for (unsigned int y = min_y; y <= max_y; y++) {
+ unsigned long *gray_map_t = gray_map->rows[gray_map_y];
+
+ trace_t = get_trace_pixel(trace_px, min_x, y, bci.width);
+ for (unsigned int x = min_x; x <= max_x; x++) {
+ *gray_map_t = is_pixel_colored(trace_t) ? GRAYMAP_BLACK : GRAYMAP_WHITE;
+ gray_map_t++;
+ trace_t++;
+ }
+ gray_map_y++;
+ }
+
+ Inkscape::Trace::Potrace::PotraceTracingEngine pte;
+ pte.keepGoing = 1;
+ std::vector<Inkscape::Trace::TracingEngineResult> results = pte.traceGrayMap(gray_map);
+ gray_map->destroy(gray_map);
+
+ //XML Tree being used here directly while it shouldn't be...."
+ Inkscape::XML::Document *xml_doc = desktop->doc()->getReprDoc();
+
+ long totalNodeCount = 0L;
+
+ Inkscape::Preferences *prefs = Inkscape::Preferences::get();
+ double offset = prefs->getDouble("/tools/paintbucket/offset", 0.0);
+
+ for (auto result : results) {
+ totalNodeCount += result.getNodeCount();
+
+ Inkscape::XML::Node *pathRepr = xml_doc->createElement("svg:path");
+ /* Set style */
+ sp_desktop_apply_style_tool (desktop, pathRepr, "/tools/paintbucket", false);
+
+ Geom::PathVector pathv = sp_svg_read_pathv(result.getPathData().c_str());
+ Path *path = new Path;
+ path->LoadPathVector(pathv);
+
+ if (offset != 0) {
+
+ Shape *path_shape = new Shape();
+
+ path->ConvertWithBackData(0.03);
+ path->Fill(path_shape, 0);
+ delete path;
+
+ Shape *expanded_path_shape = new Shape();
+
+ expanded_path_shape->ConvertToShape(path_shape, fill_nonZero);
+ path_shape->MakeOffset(expanded_path_shape, offset * desktop->current_zoom(), join_round, 4);
+ expanded_path_shape->ConvertToShape(path_shape, fill_positive);
+
+ Path *expanded_path = new Path();
+
+ expanded_path->Reset();
+ expanded_path_shape->ConvertToForme(expanded_path);
+ expanded_path->ConvertEvenLines(1.0);
+ expanded_path->Simplify(1.0);
+
+ delete path_shape;
+ delete expanded_path_shape;
+
+ gchar *str = expanded_path->svg_dump_path();
+ if (str && *str) {
+ pathRepr->setAttribute("d", str);
+ g_free(str);
+ } else {
+ desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("<b>Too much inset</b>, the result is empty."));
+ Inkscape::GC::release(pathRepr);
+ g_free(str);
+ return;
+ }
+
+ delete expanded_path;
+
+ } else {
+ gchar *str = path->svg_dump_path();
+ delete path;
+ pathRepr->setAttribute("d", str);
+ g_free(str);
+ }
+
+ auto layer = desktop->layerManager().currentLayer();
+ layer->addChild(pathRepr, nullptr);
+
+ SPObject *reprobj = document->getObjectByRepr(pathRepr);
+ if (reprobj) {
+ SP_ITEM(reprobj)->doWriteTransform(transform);
+
+ // premultiply the item transform by the accumulated parent transform in the paste layer
+ Geom::Affine local (layer->i2doc_affine());
+ if (!local.isIdentity()) {
+ gchar const *t_str = pathRepr->attribute("transform");
+ Geom::Affine item_t (Geom::identity());
+ if (t_str)
+ sp_svg_transform_read(t_str, &item_t);
+ item_t *= local.inverse();
+ // (we're dealing with unattached repr, so we write to its attr instead of using sp_item_set_transform)
+ pathRepr->setAttributeOrRemoveIfEmpty("transform", sp_svg_transform_write(item_t));
+ }
+
+ Inkscape::Selection *selection = desktop->getSelection();
+
+ pathRepr->setPosition(-1);
+
+ if (union_with_selection) {
+ desktop->messageStack()->flashF( Inkscape::WARNING_MESSAGE,
+ ngettext("Area filled, path with <b>%d</b> node created and unioned with selection.","Area filled, path with <b>%d</b> nodes created and unioned with selection.",
+ SP_PATH(reprobj)->nodesInPath()), SP_PATH(reprobj)->nodesInPath() );
+ selection->add(reprobj);
+ selection->pathUnion(true);
+ } else {
+ desktop->messageStack()->flashF( Inkscape::WARNING_MESSAGE,
+ ngettext("Area filled, path with <b>%d</b> node created.","Area filled, path with <b>%d</b> nodes created.",
+ SP_PATH(reprobj)->nodesInPath()), SP_PATH(reprobj)->nodesInPath() );
+ selection->set(reprobj);
+ }
+
+ }
+
+ Inkscape::GC::release(pathRepr);
+
+ }
+}
+
+/**
+ * The possible return states of perform_bitmap_scanline_check().
+ */
+enum ScanlineCheckResult {
+ SCANLINE_CHECK_OK,
+ SCANLINE_CHECK_ABORTED,
+ SCANLINE_CHECK_BOUNDARY
+};
+
+/**
+ * Determine if the provided coordinates are within the pixel buffer limits.
+ * @param x The X coordinate.
+ * @param y The Y coordinate.
+ * @param bci The bitmap_coords_info structure.
+ */
+inline static bool coords_in_range(unsigned int x, unsigned int y, bitmap_coords_info bci) {
+ return (x < bci.width) &&
+ (y < bci.height);
+}
+
+#define PAINT_DIRECTION_LEFT 1
+#define PAINT_DIRECTION_RIGHT 2
+#define PAINT_DIRECTION_UP 4
+#define PAINT_DIRECTION_DOWN 8
+#define PAINT_DIRECTION_ALL 15
+
+/**
+ * Paint a pixel or a square (if autogap is enabled) on the trace pixel buffer.
+ * @param px The rendered pixel buffer to check.
+ * @param trace_px The trace pixel buffer.
+ * @param orig_color The original selected pixel to use as the fill target color.
+ * @param bci The bitmap_coords_info structure.
+ * @param original_point_trace_t The original pixel in the trace pixel buffer to check.
+ */
+inline static unsigned int paint_pixel(guchar *px, guchar *trace_px, guint32 orig_color, bitmap_coords_info bci, unsigned char *original_point_trace_t) {
+ if (bci.radius == 0) {
+ mark_pixel_colored(original_point_trace_t);
+ return PAINT_DIRECTION_ALL;
+ } else {
+ unsigned char *trace_t;
+
+ bool can_paint_up = true;
+ bool can_paint_down = true;
+ bool can_paint_left = true;
+ bool can_paint_right = true;
+
+ for (unsigned int ty = bci.y - bci.radius; ty <= bci.y + bci.radius; ty++) {
+ for (unsigned int tx = bci.x - bci.radius; tx <= bci.x + bci.radius; tx++) {
+ if (coords_in_range(tx, ty, bci)) {
+ trace_t = get_trace_pixel(trace_px, tx, ty, bci.width);
+ if (!is_pixel_colored(trace_t)) {
+ if (check_if_pixel_is_paintable(px, trace_t, tx, ty, orig_color, bci)) {
+ mark_pixel_colored(trace_t);
+ } else {
+ if (tx < bci.x) { can_paint_left = false; }
+ if (tx > bci.x) { can_paint_right = false; }
+ if (ty < bci.y) { can_paint_up = false; }
+ if (ty > bci.y) { can_paint_down = false; }
+ }
+ }
+ }
+ }
+ }
+
+ unsigned int paint_directions = 0;
+ if (can_paint_left) { paint_directions += PAINT_DIRECTION_LEFT; }
+ if (can_paint_right) { paint_directions += PAINT_DIRECTION_RIGHT; }
+ if (can_paint_up) { paint_directions += PAINT_DIRECTION_UP; }
+ if (can_paint_down) { paint_directions += PAINT_DIRECTION_DOWN; }
+
+ return paint_directions;
+ }
+}
+
+/**
+ * Push a point to be checked onto the bottom of the rendered pixel buffer check queue.
+ * @param fill_queue The fill queue to add the point to.
+ * @param max_queue_size The maximum size of the fill queue.
+ * @param trace_t The trace pixel buffer pixel.
+ * @param x The X coordinate.
+ * @param y The Y coordinate.
+ */
+static void push_point_onto_queue(std::deque<Geom::Point> *fill_queue, unsigned int max_queue_size, unsigned char *trace_t, unsigned int x, unsigned int y) {
+ if (!is_pixel_queued(trace_t)) {
+ if ((fill_queue->size() < max_queue_size)) {
+ fill_queue->push_back(Geom::Point(x, y));
+ mark_pixel_queued(trace_t);
+ }
+ }
+}
+
+/**
+ * Shift a point to be checked onto the top of the rendered pixel buffer check queue.
+ * @param fill_queue The fill queue to add the point to.
+ * @param max_queue_size The maximum size of the fill queue.
+ * @param trace_t The trace pixel buffer pixel.
+ * @param x The X coordinate.
+ * @param y The Y coordinate.
+ */
+static void shift_point_onto_queue(std::deque<Geom::Point> *fill_queue, unsigned int max_queue_size, unsigned char *trace_t, unsigned int x, unsigned int y) {
+ if (!is_pixel_queued(trace_t)) {
+ if ((fill_queue->size() < max_queue_size)) {
+ fill_queue->push_front(Geom::Point(x, y));
+ mark_pixel_queued(trace_t);
+ }
+ }
+}
+
+/**
+ * Scan a row in the rendered pixel buffer and add points to the fill queue as necessary.
+ * @param fill_queue The fill queue to add the point to.
+ * @param px The rendered pixel buffer.
+ * @param trace_px The trace pixel buffer.
+ * @param orig_color The original selected pixel to use as the fill target color.
+ * @param bci The bitmap_coords_info structure.
+ */
+static ScanlineCheckResult perform_bitmap_scanline_check(std::deque<Geom::Point> *fill_queue, guchar *px, guchar *trace_px, guint32 orig_color, bitmap_coords_info bci, unsigned int *min_x, unsigned int *max_x) {
+ bool aborted = false;
+ bool reached_screen_boundary = false;
+ bool ok;
+
+ bool keep_tracing;
+ bool initial_paint = true;
+
+ unsigned char *current_trace_t = get_trace_pixel(trace_px, bci.x, bci.y, bci.width);
+ unsigned int paint_directions;
+
+ bool currently_painting_top = false;
+ bool currently_painting_bottom = false;
+
+ unsigned int top_ty = (bci.y > 0) ? bci.y - 1 : 0;
+ unsigned int bottom_ty = bci.y + 1;
+
+ bool can_paint_top = (top_ty > 0);
+ bool can_paint_bottom = (bottom_ty < bci.height);
+
+ Geom::Point front_of_queue = fill_queue->empty() ? Geom::Point() : fill_queue->front();
+
+ do {
+ ok = false;
+ if (bci.is_left) {
+ keep_tracing = (bci.x != 0);
+ } else {
+ keep_tracing = (bci.x < bci.width);
+ }
+
+ *min_x = MIN(*min_x, bci.x);
+ *max_x = MAX(*max_x, bci.x);
+
+ if (keep_tracing) {
+ if (check_if_pixel_is_paintable(px, current_trace_t, bci.x, bci.y, orig_color, bci)) {
+ paint_directions = paint_pixel(px, trace_px, orig_color, bci, current_trace_t);
+ if (bci.radius == 0) {
+ mark_pixel_checked(current_trace_t);
+ if ((!fill_queue->empty()) &&
+ (front_of_queue[Geom::X] == bci.x) &&
+ (front_of_queue[Geom::Y] == bci.y)) {
+ fill_queue->pop_front();
+ front_of_queue = fill_queue->empty() ? Geom::Point() : fill_queue->front();
+ }
+ }
+
+ if (can_paint_top) {
+ if (paint_directions & PAINT_DIRECTION_UP) {
+ unsigned char *trace_t = current_trace_t - bci.width;
+ if (!is_pixel_queued(trace_t)) {
+ bool ok_to_paint = check_if_pixel_is_paintable(px, trace_t, bci.x, top_ty, orig_color, bci);
+
+ if (initial_paint) { currently_painting_top = !ok_to_paint; }
+
+ if (ok_to_paint && (!currently_painting_top)) {
+ currently_painting_top = true;
+ push_point_onto_queue(fill_queue, bci.max_queue_size, trace_t, bci.x, top_ty);
+ }
+ if ((!ok_to_paint) && currently_painting_top) {
+ currently_painting_top = false;
+ }
+ }
+ }
+ }
+
+ if (can_paint_bottom) {
+ if (paint_directions & PAINT_DIRECTION_DOWN) {
+ unsigned char *trace_t = current_trace_t + bci.width;
+ if (!is_pixel_queued(trace_t)) {
+ bool ok_to_paint = check_if_pixel_is_paintable(px, trace_t, bci.x, bottom_ty, orig_color, bci);
+
+ if (initial_paint) { currently_painting_bottom = !ok_to_paint; }
+
+ if (ok_to_paint && (!currently_painting_bottom)) {
+ currently_painting_bottom = true;
+ push_point_onto_queue(fill_queue, bci.max_queue_size, trace_t, bci.x, bottom_ty);
+ }
+ if ((!ok_to_paint) && currently_painting_bottom) {
+ currently_painting_bottom = false;
+ }
+ }
+ }
+ }
+
+ if (bci.is_left) {
+ if (paint_directions & PAINT_DIRECTION_LEFT) {
+ bci.x--; current_trace_t--;
+ ok = true;
+ }
+ } else {
+ if (paint_directions & PAINT_DIRECTION_RIGHT) {
+ bci.x++; current_trace_t++;
+ ok = true;
+ }
+ }
+
+ initial_paint = false;
+ }
+ } else {
+ if (bci.bbox.min()[Geom::X] > bci.screen.min()[Geom::X]) {
+ aborted = true; break;
+ } else {
+ reached_screen_boundary = true;
+ }
+ }
+ } while (ok);
+
+ if (aborted) { return SCANLINE_CHECK_ABORTED; }
+ if (reached_screen_boundary) { return SCANLINE_CHECK_BOUNDARY; }
+ return SCANLINE_CHECK_OK;
+}
+
+/**
+ * Sort the rendered pixel buffer check queue vertically.
+ */
+static bool sort_fill_queue_vertical(Geom::Point a, Geom::Point b) {
+ return a[Geom::Y] > b[Geom::Y];
+}
+
+/**
+ * Sort the rendered pixel buffer check queue horizontally.
+ */
+static bool sort_fill_queue_horizontal(Geom::Point a, Geom::Point b) {
+ return a[Geom::X] > b[Geom::X];
+}
+
+/**
+ * Perform a flood fill operation.
+ * @param desktop The desktop of this tool's event context.
+ * @param event The details of this event.
+ * @param union_with_selection If true, union the new fill with the current selection.
+ * @param is_point_fill If false, use the Rubberband "touch selection" to get the initial points for the fill.
+ * @param is_touch_fill If true, use only the initial contact point in the Rubberband "touch selection" as the fill target color.
+ */
+static void sp_flood_do_flood_fill(SPDesktop *desktop, GdkEvent *event,
+ bool union_with_selection, bool is_point_fill, bool is_touch_fill) {
+
+ SPDocument *document = desktop->getDocument();
+
+ document->ensureUpToDate();
+
+ Geom::OptRect bbox = document->getRoot()->visualBounds();
+
+ if (!bbox) {
+ desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("<b>Area is not bounded</b>, cannot fill."));
+ return;
+ }
+
+ // Render 160% of the physical display to the render pixel buffer, so that available
+ // fill areas off the screen can be included in the fill.
+ double padding = 1.6;
+
+ // image space is world space with an offset
+ Geom::Rect const screen_world = desktop->getCanvas()->get_area_world();
+ Geom::Rect const screen = screen_world * desktop->w2d();
+ Geom::IntPoint const img_dims = (screen_world.dimensions() * padding).ceil();
+ Geom::Affine const world2img = Geom::Translate((img_dims - screen_world.dimensions()) / 2.0 - screen_world.min());
+ Geom::Affine const doc2img = desktop->doc2dt() * desktop->d2w() * world2img;
+
+ auto const width = img_dims.x();
+ auto const height = img_dims.y();
+
+ int stride = cairo_format_stride_for_width(CAIRO_FORMAT_ARGB32, width);
+ guchar *px = g_new(guchar, stride * height);
+ guint32 bgcolor, dtc;
+
+ // Draw image into data block px
+ { // this block limits the lifetime of Drawing and DrawingContext
+ /* Create DrawingItems and set transform */
+ unsigned dkey = SPItem::display_key_new(1);
+ Inkscape::Drawing drawing;
+ Inkscape::DrawingItem *root = document->getRoot()->invoke_show( drawing, dkey, SP_ITEM_SHOW_DISPLAY);
+ root->setTransform(doc2img);
+ drawing.setRoot(root);
+
+ Geom::IntRect final_bbox = Geom::IntRect::from_xywh(0, 0, width, height);
+ drawing.update(final_bbox);
+
+ cairo_surface_t *s = cairo_image_surface_create_for_data(
+ px, CAIRO_FORMAT_ARGB32, width, height, stride);
+ Inkscape::DrawingContext dc(s, Geom::Point(0,0));
+ // cairo_translate not necessary here - surface origin is at 0,0
+
+ bgcolor = document->getPageManager().background_color;
+
+ // bgcolor is 0xrrggbbaa, we need 0xaarrggbb
+ dtc = (bgcolor >> 8) | (bgcolor << 24);
+
+ dc.setSource(bgcolor);
+ dc.setOperator(CAIRO_OPERATOR_SOURCE);
+ dc.paint();
+ dc.setOperator(CAIRO_OPERATOR_OVER);
+
+ drawing.render(dc, final_bbox);
+
+ //cairo_surface_write_to_png( s, "cairo.png" );
+
+ cairo_surface_flush(s);
+ cairo_surface_destroy(s);
+
+ // Hide items
+ document->getRoot()->invoke_hide(dkey);
+ }
+
+ // {
+ // // Dump data to png
+ // cairo_surface_t *s = cairo_image_surface_create_for_data(
+ // px, CAIRO_FORMAT_ARGB32, width, height, stride);
+ // cairo_surface_write_to_png( s, "cairo2.png" );
+ // std::cout << " Wrote cairo2.png" << std::endl;
+ // }
+
+ guchar *trace_px = g_new(guchar, width * height);
+ memset(trace_px, 0x00, width * height);
+
+ std::deque<Geom::Point> fill_queue;
+ std::queue<Geom::Point> color_queue;
+
+ std::vector<Geom::Point> fill_points;
+
+ bool aborted = false;
+ int y_limit = height - 1;
+
+ Inkscape::Preferences *prefs = Inkscape::Preferences::get();
+ PaintBucketChannels method = (PaintBucketChannels) prefs->getInt("/tools/paintbucket/channels", 0);
+ int threshold = prefs->getIntLimited("/tools/paintbucket/threshold", 1, 0, 100);
+
+ switch(method) {
+ case FLOOD_CHANNELS_ALPHA:
+ case FLOOD_CHANNELS_RGB:
+ case FLOOD_CHANNELS_R:
+ case FLOOD_CHANNELS_G:
+ case FLOOD_CHANNELS_B:
+ threshold = (255 * threshold) / 100;
+ break;
+ case FLOOD_CHANNELS_H:
+ case FLOOD_CHANNELS_S:
+ case FLOOD_CHANNELS_L:
+ break;
+ }
+
+ bitmap_coords_info bci;
+
+ bci.y_limit = y_limit;
+ bci.width = width;
+ bci.height = height;
+ bci.stride = stride;
+ bci.threshold = threshold;
+ bci.method = method;
+ bci.bbox = *bbox;
+ bci.screen = screen;
+ bci.dtc = dtc;
+ bci.radius = prefs->getIntLimited("/tools/paintbucket/autogap", 0, 0, 3);
+ bci.max_queue_size = (width * height) / 4;
+ bci.current_step = 0;
+
+ if (is_point_fill) {
+ fill_points.emplace_back(event->button.x, event->button.y);
+ } else {
+ Inkscape::Rubberband *r = Inkscape::Rubberband::get(desktop);
+ fill_points = r->getPoints();
+ }
+
+ auto const img_max_indices = Geom::Rect::from_xywh(0, 0, width - 1, height - 1);
+
+ for (unsigned int i = 0; i < fill_points.size(); i++) {
+ Geom::Point pw = fill_points[i] * world2img;
+
+ pw = img_max_indices.clamp(pw);
+
+ if (is_touch_fill) {
+ if (i == 0) {
+ color_queue.push(pw);
+ } else {
+ unsigned char *trace_t = get_trace_pixel(trace_px, (int)pw[Geom::X], (int)pw[Geom::Y], width);
+ push_point_onto_queue(&fill_queue, bci.max_queue_size, trace_t, (int)pw[Geom::X], (int)pw[Geom::Y]);
+ }
+ } else {
+ color_queue.push(pw);
+ }
+ }
+
+ bool reached_screen_boundary = false;
+
+ bool first_run = true;
+
+ unsigned long sort_size_threshold = 5;
+
+ unsigned int min_y = height;
+ unsigned int max_y = 0;
+ unsigned int min_x = width;
+ unsigned int max_x = 0;
+
+ while (!color_queue.empty() && !aborted) {
+ Geom::Point color_point = color_queue.front();
+ color_queue.pop();
+
+ int cx = (int)color_point[Geom::X];
+ int cy = (int)color_point[Geom::Y];
+
+ guint32 orig_color = get_pixel(px, cx, cy, stride);
+ bci.merged_orig_pixel = compose_onto(orig_color, dtc);
+
+ unsigned char *trace_t = get_trace_pixel(trace_px, cx, cy, width);
+ if (!is_pixel_checked(trace_t) && !is_pixel_colored(trace_t)) {
+ if (check_if_pixel_is_paintable(px, trace_px, cx, cy, orig_color, bci)) {
+ shift_point_onto_queue(&fill_queue, bci.max_queue_size, trace_t, cx, cy);
+
+ if (!first_run) {
+ for (unsigned int y = 0; y < height; y++) {
+ trace_t = get_trace_pixel(trace_px, 0, y, width);
+ for (unsigned int x = 0; x < width; x++) {
+ clear_pixel_paintability(trace_t);
+ trace_t++;
+ }
+ }
+ }
+ first_run = false;
+ }
+ }
+
+ unsigned long old_fill_queue_size = fill_queue.size();
+
+ while (!fill_queue.empty() && !aborted) {
+ Geom::Point cp = fill_queue.front();
+
+ if (bci.radius == 0) {
+ unsigned long new_fill_queue_size = fill_queue.size();
+
+ /*
+ * To reduce the number of points in the fill queue, periodically
+ * resort all of the points in the queue so that scanline checks
+ * can complete more quickly. A point cannot be checked twice
+ * in a normal scanline checks, so forcing scanline checks to start
+ * from one corner of the rendered area as often as possible
+ * will reduce the number of points that need to be checked and queued.
+ */
+ if (new_fill_queue_size > sort_size_threshold) {
+ if (new_fill_queue_size > old_fill_queue_size) {
+ std::sort(fill_queue.begin(), fill_queue.end(), sort_fill_queue_vertical);
+
+ std::deque<Geom::Point>::iterator start_sort = fill_queue.begin();
+ std::deque<Geom::Point>::iterator end_sort = fill_queue.begin();
+ unsigned int sort_y = (unsigned int)cp[Geom::Y];
+ unsigned int current_y;
+
+ for (std::deque<Geom::Point>::iterator i = fill_queue.begin(); i != fill_queue.end(); ++i) {
+ Geom::Point current = *i;
+ current_y = (unsigned int)current[Geom::Y];
+ if (current_y != sort_y) {
+ if (start_sort != end_sort) {
+ std::sort(start_sort, end_sort, sort_fill_queue_horizontal);
+ }
+ sort_y = current_y;
+ start_sort = i;
+ }
+ end_sort = i;
+ }
+ if (start_sort != end_sort) {
+ std::sort(start_sort, end_sort, sort_fill_queue_horizontal);
+ }
+
+ cp = fill_queue.front();
+ }
+ }
+
+ old_fill_queue_size = new_fill_queue_size;
+ }
+
+ fill_queue.pop_front();
+
+ int x = (int)cp[Geom::X];
+ int y = (int)cp[Geom::Y];
+
+ min_y = MIN((unsigned int)y, min_y);
+ max_y = MAX((unsigned int)y, max_y);
+
+ unsigned char *trace_t = get_trace_pixel(trace_px, x, y, width);
+ if (!is_pixel_checked(trace_t)) {
+ mark_pixel_checked(trace_t);
+
+ if (y == 0) {
+ if (bbox->min()[Geom::Y] > screen.min()[Geom::Y]) {
+ aborted = true; break;
+ } else {
+ reached_screen_boundary = true;
+ }
+ }
+
+ if (y == y_limit) {
+ if (bbox->max()[Geom::Y] < screen.max()[Geom::Y]) {
+ aborted = true; break;
+ } else {
+ reached_screen_boundary = true;
+ }
+ }
+
+ bci.is_left = true;
+ bci.x = x;
+ bci.y = y;
+
+ ScanlineCheckResult result = perform_bitmap_scanline_check(&fill_queue, px, trace_px, orig_color, bci, &min_x, &max_x);
+
+ switch (result) {
+ case SCANLINE_CHECK_ABORTED:
+ aborted = true;
+ break;
+ case SCANLINE_CHECK_BOUNDARY:
+ reached_screen_boundary = true;
+ break;
+ default:
+ break;
+ }
+
+ if (bci.x < width) {
+ trace_t++;
+ if (!is_pixel_checked(trace_t) && !is_pixel_queued(trace_t)) {
+ mark_pixel_checked(trace_t);
+ bci.is_left = false;
+ bci.x = x + 1;
+
+ result = perform_bitmap_scanline_check(&fill_queue, px, trace_px, orig_color, bci, &min_x, &max_x);
+
+ switch (result) {
+ case SCANLINE_CHECK_ABORTED:
+ aborted = true;
+ break;
+ case SCANLINE_CHECK_BOUNDARY:
+ reached_screen_boundary = true;
+ break;
+ default:
+ break;
+ }
+ }
+ }
+ }
+
+ bci.current_step++;
+
+ if (bci.current_step > bci.max_queue_size) {
+ aborted = true;
+ }
+ }
+ }
+
+ g_free(px);
+
+ if (aborted) {
+ g_free(trace_px);
+ desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("<b>Area is not bounded</b>, cannot fill."));
+ return;
+ }
+
+ if (reached_screen_boundary) {
+ desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("<b>Only the visible part of the bounded area was filled.</b> If you want to fill all of the area, undo, zoom out, and fill again."));
+ }
+
+ unsigned int trace_padding = bci.radius + 1;
+ if (min_y > trace_padding) { min_y -= trace_padding; }
+ if (max_y < (y_limit - trace_padding)) { max_y += trace_padding; }
+ if (min_x > trace_padding) { min_x -= trace_padding; }
+ if (max_x < (width - 1 - trace_padding)) { max_x += trace_padding; }
+
+ Geom::Affine inverted_affine = Geom::Translate(min_x, min_y) * doc2img.inverse();
+
+ do_trace(bci, trace_px, desktop, inverted_affine, min_x, max_x, min_y, max_y, union_with_selection);
+
+ g_free(trace_px);
+
+ DocumentUndo::done(document, _("Fill bounded area"), INKSCAPE_ICON("color-fill"));
+}
+
+bool FloodTool::item_handler(SPItem* item, GdkEvent* event) {
+ gint ret = FALSE;
+
+ switch (event->type) {
+ case GDK_BUTTON_PRESS:
+ if ((event->button.state & GDK_CONTROL_MASK) && event->button.button == 1) {
+ Geom::Point const button_w(event->button.x, event->button.y);
+
+ SPItem *item = sp_event_context_find_item(_desktop, button_w, TRUE, TRUE);
+
+ // Set style
+ _desktop->applyCurrentOrToolStyle(item, "/tools/paintbucket", false);
+
+ DocumentUndo::done(_desktop->getDocument(), _("Set style on object"), INKSCAPE_ICON("color-fill"));
+ // Dead assignment: Value stored to 'ret' is never read
+ //ret = TRUE;
+ }
+ break;
+
+ default:
+ break;
+ }
+
+// if (((ToolBaseClass *) sp_flood_context_parent_class)->item_handler) {
+// ret = ((ToolBaseClass *) sp_flood_context_parent_class)->item_handler(event_context, item, event);
+// }
+ // CPPIFY: ret is overwritten...
+ ret = ToolBase::item_handler(item, event);
+
+ return ret;
+}
+
+bool FloodTool::root_handler(GdkEvent* event) {
+ static bool dragging;
+
+ gint ret = FALSE;
+
+ switch (event->type) {
+ case GDK_BUTTON_PRESS:
+ if (event->button.button == 1) {
+ if (!(event->button.state & GDK_CONTROL_MASK)) {
+ Geom::Point const button_w(event->button.x, event->button.y);
+
+ if (Inkscape::have_viable_layer(_desktop, this->defaultMessageContext())) {
+ // save drag origin
+ this->xp = (gint) button_w[Geom::X];
+ this->yp = (gint) button_w[Geom::Y];
+ this->within_tolerance = true;
+
+ dragging = true;
+
+ Geom::Point const p(_desktop->w2d(button_w));
+ Inkscape::Rubberband::get(_desktop)->setMode(RUBBERBAND_MODE_TOUCHPATH);
+ Inkscape::Rubberband::get(_desktop)->start(_desktop, p);
+ }
+ }
+ }
+
+ case GDK_MOTION_NOTIFY:
+ if ( dragging && ( event->motion.state & GDK_BUTTON1_MASK )) {
+ if ( this->within_tolerance
+ && ( abs( (gint) event->motion.x - this->xp ) < this->tolerance )
+ && ( abs( (gint) event->motion.y - this->yp ) < this->tolerance ) ) {
+ break; // do not drag if we're within tolerance from origin
+ }
+
+ this->within_tolerance = false;
+
+ Geom::Point const motion_pt(event->motion.x, event->motion.y);
+ Geom::Point const p(_desktop->w2d(motion_pt));
+
+ if (Inkscape::Rubberband::get(_desktop)->is_started()) {
+ Inkscape::Rubberband::get(_desktop)->move(p);
+ this->defaultMessageContext()->set(Inkscape::NORMAL_MESSAGE, _("<b>Draw over</b> areas to add to fill, hold <b>Alt</b> for touch fill"));
+ gobble_motion_events(GDK_BUTTON1_MASK);
+ }
+ }
+ break;
+
+ case GDK_BUTTON_RELEASE:
+ if (event->button.button == 1) {
+ Inkscape::Rubberband *r = Inkscape::Rubberband::get(_desktop);
+
+ if (r->is_started()) {
+ dragging = false;
+ bool is_point_fill = this->within_tolerance;
+ bool is_touch_fill = event->button.state & GDK_MOD1_MASK;
+
+ // It's possible for the user to sneakily change the tool while the
+ // Gtk main loop has control, so we save the current desktop address:
+ SPDesktop* current_desktop = _desktop;
+
+ current_desktop->setWaitingCursor();
+ sp_flood_do_flood_fill(current_desktop, event,
+ event->button.state & GDK_SHIFT_MASK,
+ is_point_fill, is_touch_fill);
+ current_desktop->clearWaitingCursor();
+ r->stop();
+
+ // We check whether our object was deleted by SPDesktop::setEventContext()
+ // TODO: fix SPDesktop so that it doesn't kill us before we're done
+ ToolBase *current_context = current_desktop->getEventContext();
+
+ if (current_context == (ToolBase*)this) { // We're still alive
+ this->defaultMessageContext()->clear();
+ } // else just return without dereferencing `this`.
+ ret = true;
+ }
+ }
+ break;
+ case GDK_KEY_PRESS:
+ switch (get_latin_keyval (&event->key)) {
+ case GDK_KEY_Up:
+ case GDK_KEY_Down:
+ case GDK_KEY_KP_Up:
+ case GDK_KEY_KP_Down:
+ // prevent the zoom field from activation
+ if (!MOD__CTRL_ONLY(event))
+ ret = TRUE;
+ break;
+ default:
+ break;
+ }
+ break;
+
+ default:
+ break;
+ }
+
+ if (!ret) {
+ ret = ToolBase::root_handler(event);
+ }
+
+ return ret;
+}
+
+void FloodTool::finishItem() {
+ this->message_context->clear();
+
+ if (this->item != nullptr) {
+ this->item->updateRepr();
+
+ _desktop->getSelection()->set(this->item);
+ DocumentUndo::done(_desktop->getDocument(), _("Fill bounded area"), INKSCAPE_ICON("color-fill"));
+
+ this->item = nullptr;
+ }
+}
+
+void FloodTool::set_channels(gint channels) {
+ Inkscape::Preferences *prefs = Inkscape::Preferences::get();
+ prefs->setInt("/tools/paintbucket/channels", channels);
+}
+
+}
+}
+}
+
+/*
+ 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 :