(function () { var ns = $.namespace("pskl"); ns.PixelUtils = { getRectanglePixels : function (x0, y0, x1, y1) { var rectangle = this.getOrderedRectangleCoordinates(x0, y0, x1, y1); var pixels = []; for(var x = rectangle.x0; x <= rectangle.x1; x++) { for(var y = rectangle.y0; y <= rectangle.y1; y++) { pixels.push({"col": x, "row": y}); } } return pixels; }, getBoundRectanglePixels : function (x0, y0, x1, y1) { var rectangle = this.getOrderedRectangleCoordinates(x0, y0, x1, y1); var pixels = []; // Creating horizontal sides of the rectangle: for(var x = rectangle.x0; x <= rectangle.x1; x++) { pixels.push({"col": x, "row": rectangle.y0}); pixels.push({"col": x, "row": rectangle.y1}); } // Creating vertical sides of the rectangle: for(var y = rectangle.y0; y <= rectangle.y1; y++) { pixels.push({"col": rectangle.x0, "row": y}); pixels.push({"col": rectangle.x1, "row": y}); } return pixels; }, /** * Return an object of ordered rectangle coordinate. * In returned object {x0, y0} => top left corner - {x1, y1} => bottom right corner * @private */ getOrderedRectangleCoordinates : function (x0, y0, x1, y1) { return { x0 : Math.min(x0, x1), y0 : Math.min(y0, y1), x1 : Math.max(x0, x1), y1 : Math.max(y0, y1) }; }, /** * Return the list of pixels that would have been filled by a paintbucket tool applied * on pixel at coordinate (x,y). * This function is not altering the Frame object argument. * * @param frame pskl.model.Frame The frame target in which we want to paintbucket * @param col number Column coordinate in the frame * @param row number Row coordinate in the frame * * @return an array of the pixel coordinates paint with the replacement color */ getSimilarConnectedPixelsFromFrame: function(frame, col, row) { // To get the list of connected (eg the same color) pixels, we will use the paintbucket algorithm // in a fake cloned frame. The returned pixels by the paintbucket algo are the painted pixels // and are as well connected. var fakeFrame = frame.clone(); // We just want to var fakeFillColor = "sdfsdfsdf"; // A fake color that will never match a real color. var paintedPixels = this.paintSimilarConnectedPixelsFromFrame(fakeFrame, col, row, fakeFillColor); return paintedPixels; }, /** * Apply the paintbucket tool in a frame at the (col, row) initial position * with the replacement color. * * @param frame pskl.model.Frame The frame target in which we want to paintbucket * @param col number Column coordinate in the frame * @param row number Row coordinate in the frame * @param replacementColor string Hexadecimal color used to fill the area * * @return an array of the pixel coordinates paint with the replacement color */ paintSimilarConnectedPixelsFromFrame: function(frame, col, row, replacementColor) { /** * Queue linear Flood-fill (node, target-color, replacement-color): * 1. Set Q to the empty queue. * 2. If the color of node is not equal to target-color, return. * 3. Add node to Q. * 4. For each element n of Q: * 5. If the color of n is equal to target-color: * 6. Set w and e equal to n. * 7. Move w to the west until the color of the node to the west of w no longer matches target-color. * 8. Move e to the east until the color of the node to the east of e no longer matches target-color. * 9. Set the color of nodes between w and e to replacement-color. * 10. For each node n between w and e: * 11. If the color of the node to the north of n is target-color, add that node to Q. * 12. If the color of the node to the south of n is target-color, add that node to Q. * 13. Continue looping until Q is exhausted. * 14. Return. */ var paintedPixels = []; var queue = []; var dy = [-1, 0, 1, 0]; var dx = [0, 1, 0, -1]; var targetColor; try { targetColor = frame.getPixel(col, row); } catch(e) { // Frame out of bound exception. } if(targetColor == replacementColor) { return; } queue.push({"col": col, "row": row}); var loopCount = 0; var cellCount = frame.getWidth() * frame.getHeight(); while(queue.length > 0) { loopCount ++; var currentItem = queue.pop(); frame.setPixel(currentItem.col, currentItem.row, replacementColor); paintedPixels.push({"col": currentItem.col, "row": currentItem.row }); for (var i = 0; i < 4; i++) { var nextCol = currentItem.col + dx[i]; var nextRow = currentItem.row + dy[i]; try { if (frame.containsPixel(nextCol, nextRow) && frame.getPixel(nextCol, nextRow) == targetColor) { queue.push({"col": nextCol, "row": nextRow }); } } catch(e) { // Frame out of bound exception. } } // Security loop breaker: if(loopCount > 10 * cellCount) { console.log("loop breaker called"); break; } } return paintedPixels; }, /** * Calculate and return the maximal zoom level to display a picture in a given container. * * @param container jQueryObject Container where the picture should be displayed * @param number pictureHeight height in pixels of the picture to display * @param number pictureWidth width in pixels of the picture to display * @return number maximal zoom */ calculateZoomForContainer : function (container, pictureHeight, pictureWidth) { return this.calculateZoom(container.height(), container.width(), pictureHeight, pictureWidth); }, /** * Calculate and return the maximal zoom to display a picture for a given height and width. * * @param height number Height available to display the picture * @param width number Width available to display the picture * @param number pictureHeight height in pixels of the picture to display * @param number pictureWidth width in pixels of the picture to display * @return number maximal zoom */ calculateZoom : function (height, width, pictureHeight, pictureWidth) { var heightRatio = Math.floor(height / pictureHeight), widthRatio = Math.floor(width / pictureWidth); return Math.min(heightRatio, widthRatio); } }; })();