问题
I am working on one Paint application wherein I am implementing BucketFill functionality similar to MS paint application.
I have coded it using a couple of FloodFill algorithms but the filling color process is taking too much time.
I am not pretty sure reasons behind it may happen due to the low cache memory, poor algorithm, or it may be taking a lot of time calculating offsets.
Can someone help me out with your Knowledge in Flutter/Dart?
Algorithms tried:
- Recursion Based Approach(4 or 8 connected Method)
- Queue-Based approach
- Stack Based Approach
- QueueLinear Based Approach
With above all the performance is very slow
import 'dart:collection';
import 'dart:math';
import 'package:flutter/material.dart';
import 'dart:ui';
import 'dart:async';
import 'package:flutter/rendering.dart';
import 'dart:typed_data';
import 'dart:ui' as ui;
class BucketFill {
List<Offset> _points = <Offset>[];
Uint32List words;
static int width;
Color oldColor, pixel;
int imageWidth;
int imageHeight;
Future<List> capturePng(GlobalKey key, Offset offset) async {
RenderRepaintBoundary boundary = key.currentContext.findRenderObject();
ui.Image image = await boundary.toImage();
final rgbaImageData =
await image.toByteData(format: ui.ImageByteFormat.rawRgba);
imageHeight = image.height;
imageWidth = image.width;
words = Uint32List.view(rgbaImageData.buffer, rgbaImageData.offsetInBytes,
rgbaImageData.lengthInBytes ~/ Uint32List.bytesPerElement);
oldColor = _getColor(words, offset.dx, offset.dy);
return _floodfill(oldColor, offset.dx, offset.dy);
}
Color _getColor(Uint32List words, double x1, double y1) {
int x = x1.toInt();
int y = y1.toInt();
var offset = x + y * imageWidth;
return Color(words[offset]);
}
// Queue based approach.
List<Offset> _floodfill(Color oldColor, double x, double y) {
Queue<Offset> queue = new Queue();
Offset temp;
queue.add(Offset(x, y));
_points = List.from(_points)..add(queue.first);
while (queue.isNotEmpty) {
temp = queue.first;
queue.removeFirst();
if (_shouldFillColor(temp.dx + 2, temp.dy)) {
queue.add(Offset(temp.dx + 2, temp.dy));
_points.add(Offset(temp.dx + 2, temp.dy));
}
if (_shouldFillColor(temp.dx - 2, temp.dy)) {
queue.add(Offset(temp.dx - 2, temp.dy));
_points.add(Offset(temp.dx - 2, temp.dy));
}
if (_shouldFillColor(temp.dx, temp.dy + 2)) {
queue.add(Offset(temp.dx, temp.dy + 2));
_points.add(Offset(temp.dx, temp.dy + 2));
}
if (_shouldFillColor(temp.dx, temp.dy - 2)) {
queue.add(Offset(temp.dx, temp.dy - 2));
_points.add(Offset(temp.dx, temp.dy - 2));
}
}
_points.add(null);
return _points;
}
bool _shouldFillColor(double x, double y) {
return (x >= 0 &&
x < imageWidth &&
y >= 0 &&
y < imageHeight &&
!_points.contains(Offset(x, y)))
? _getColor(words, x, y) == oldColor
: false;
}
}
回答1:
I just recently made a package for this called floodfill_image
Basically I use the Queue-Linear Flood Fill Algorithm by J. Dunlap and ported it into Flutter.
Here's the source code that I use for Flutter:
//Original algorithm by J. Dunlap queuelinearfloodfill.aspx
//Java port by Owen Kaluza
//Android port by Darrin Smith (Standard Android)
//Flutter port by Garlen Javier
import 'dart:async';
import 'dart:collection';
import 'dart:ui';
import 'package:image/image.dart' as img;
class QueueLinearFloodFiller {
img.Image image;
int _width = 0;
int _height = 0;
int _cachedWidth = -1;
int _cachedHeight = -1;
int _fillColor = 0;
int _tolerance = 8;
List<int> _startColor = [0, 0, 0, 0];
List<bool> _pixelsChecked;
Queue<_FloodFillRange> _ranges;
QueueLinearFloodFiller(img.Image imgVal, int newColor) {
image = imgVal;
_width = image.width;
_height = image.height;
setFillColor(newColor);
}
void resize(Size size) {
if (_cachedWidth != size.width.toInt() ||
_cachedHeight != size.height.toInt()) {
image = img.copyResize(image,
width: size.width.toInt(), height: size.height.toInt());
_width = image.width;
_height = image.height;
_cachedWidth = _width;
_cachedHeight = _height;
}
}
void setTargetColor(int targetColor) {
_startColor[0] = img.getRed(targetColor);
_startColor[1] = img.getGreen(targetColor);
_startColor[2] = img.getBlue(targetColor);
_startColor[3] = img.getAlpha(targetColor);
}
void setTolerance(int value) {
_tolerance = value.clamp(0, 100);
}
int getFillColor() {
return _fillColor;
}
void setFillColor(int value) {
_fillColor = value;
}
void _prepare() {
// Called before starting flood-fill
_pixelsChecked = List<bool>.filled(_width * _height, false);
_ranges = Queue<_FloodFillRange>();
}
// Fills the specified point on the bitmap with the currently selected fill
// color.
// int x, int y: The starting coords for the fill
Future<void> floodFill(int x, int y) async {
// Setup
_prepare();
if (_startColor[0] == 0) {
// ***Get starting color.
int startPixel = image.getPixelSafe(x, y);
_startColor[0] = img.getRed(startPixel);
_startColor[1] = img.getGreen(startPixel);
_startColor[2] = img.getBlue(startPixel);
}
// ***Do first call to floodfill.
_linearFill(x, y);
// ***Call floodfill routine while floodfill _ranges still exist on the
// queue
_FloodFillRange range;
while (_ranges.length > 0) {
// **Get Next Range Off the Queue
range = _ranges.removeFirst();
// **Check Above and Below Each Pixel in the Floodfill Range
int downPxIdx = (_width * (range.y + 1)) + range.startX;
int upPxIdx = (_width * (range.y - 1)) + range.startX;
int upY = range.y - 1; // so we can pass the y coord by ref
int downY = range.y + 1;
for (int i = range.startX; i <= range.endX; i++) {
// *Start Fill Upwards
// if we're not above the top of the bitmap and the pixel above
// this one is within the color tolerance
if (range.y > 0 && (!_pixelsChecked[upPxIdx]) && _checkPixel(i, upY)) {
_linearFill(i, upY);
}
// *Start Fill Downwards
// if we're not below the bottom of the bitmap and the pixel
// below this one is within the color tolerance
if (range.y < (_height - 1) &&
(!_pixelsChecked[downPxIdx]) &&
_checkPixel(i, downY)) {
_linearFill(i, downY);
}
downPxIdx++;
upPxIdx++;
}
}
}
// Finds the furthermost left and right boundaries of the fill area
// on a given y coordinate, starting from a given x coordinate, filling as
// it goes.
// Adds the resulting horizontal range to the queue of floodfill _ranges,
// to be processed in the main loop.
//
// int x, int y: The starting coords
void _linearFill(int x, int y) {
// ***Find Left Edge of Color Area
int lFillLoc = x; // the location to check/fill on the left
int pxIdx = (_width * y) + x;
while (true) {
// **fill with the color
//pixels[pxIdx] = _fillColor;
image.setPixelSafe(lFillLoc, y, _fillColor);
// **indicate that this pixel has already been checked and filled
_pixelsChecked[pxIdx] = true;
// **de-increment
lFillLoc--; // de-increment counter
pxIdx--; // de-increment pixel index
// **exit loop if we're at edge of bitmap or color area
if (lFillLoc < 0 ||
(_pixelsChecked[pxIdx]) ||
!_checkPixel(lFillLoc, y)) {
break;
}
}
lFillLoc++;
// ***Find Right Edge of Color Area
int rFillLoc = x; // the location to check/fill on the left
pxIdx = (_width * y) + x;
while (true) {
// **fill with the color
image.setPixelSafe(rFillLoc, y, _fillColor);
// **indicate that this pixel has already been checked and filled
_pixelsChecked[pxIdx] = true;
// **increment
rFillLoc++; // increment counter
pxIdx++; // increment pixel index
// **exit loop if we're at edge of bitmap or color area
if (rFillLoc >= _width ||
_pixelsChecked[pxIdx] ||
!_checkPixel(rFillLoc, y)) {
break;
}
}
rFillLoc--;
// add range to queue
_FloodFillRange r = new _FloodFillRange(lFillLoc, rFillLoc, y);
_ranges.add(r);
}
// Sees if a pixel is within the color tolerance range.
bool _checkPixel(int x, int y) {
int pixelColor = image.getPixelSafe(x, y);
int red = img.getRed(pixelColor);
int green = img.getGreen(pixelColor);
int blue = img.getBlue(pixelColor);
int alpha = img.getAlpha(pixelColor);
return (red >= (_startColor[0] - _tolerance) &&
red <= (_startColor[0] + _tolerance) &&
green >= (_startColor[1] - _tolerance) &&
green <= (_startColor[1] + _tolerance) &&
blue >= (_startColor[2] - _tolerance) &&
blue <= (_startColor[2] + _tolerance) &&
alpha >= (_startColor[3] - _tolerance) &&
alpha <= (_startColor[3] + _tolerance));
}
}
// Represents a linear range to be filled and branched from.
class _FloodFillRange {
int startX;
int endX;
int y;
_FloodFillRange(int startX, int endX, int yPos) {
this.startX = startX;
this.endX = endX;
this.y = yPos;
}
}
Here's a sample gif that would also show how fast this Algorithm in Flutter.
If you want to know more about the steps I made to port it, you can visit my blog https://www.meekcode.com/blog/flood-fill-in-flutter
来源:https://stackoverflow.com/questions/52837641/how-to-implement-flood-fill-algorithms