Check whether canvas is black - javascript

I have a script which takes a picture and creates black and white R, G and B channels. And I would like to count how many channels have something on them (black = no colour, white = colour data).
It works by going through every single pixel and saving data in 3 different canvas elements. Each one showing different channel.
It works great but when I give a Red and Blue picture only, the green channel (obviously) is completely black.
So my question is, how do I check whether the canvas is completely black? I would like to avoid looping through every pixel in every channel to see if it's all black.
cheers

Ok I've tested a few things and the easiest solution I could come up with was creating a 1x1 offscreen canvas, then drawing either your image or your original canvas you want to check for data on it, scaled down to 1 pixel and check it (I also added basic caching).
It's not a precise check, and the result depends on how the pixel data is distributed in the original image, so as GameAlchemist noted, you may loop through all the pixels anyway if the result of the check is 0 if you want accurate results.
function quickCheck(img){
var i = arguments.callee; //caching the canvas&context in the function
if(!i.canvas){i.canvas = document.createElement("canvas")}
if(!i.ctx) {i.ctx = i.canvas.getContext("2d")}
i.canvas.width=i.canvas.height = 1;
i.ctx.drawImage(img,0,0,1,1);
var result = i.ctx.getImageData(0,0,1,1);
return result.data[0]+result.data[1]+result.data[2]+result.data[3];
}

You must iterate the canvas's pixel data--no magic method to avoid that.
The performance cost of iterating through 2 images is trivial (2 images = your front image and back image).
[ Removed un-necessary part of answer after visiting questioner's site ]

Another quick check would be to calculate the sum of the image data. If the sum is equal to the amount of pixels in the canvas times 255, it is probably all black. There is a small chance that some other combination of pixels could cause the sum to be equal to the same number, but the chance is very low (unless you are looping through all the canvas combinations).

Related

Way to see if whole canvas has been painted in one color. Javascript + processing.js

I'm still a beginner at javascript, and I'm making a game about dying the whole screen white while the paint brush becomes smaller and smaller until in completely disappears.
I wanted to know, is there a simple way to figure out if the whole canvas has been painted, so I can put a winning screen?
I'm using the processing.js library, here is my code, if it's of any use:
background(255,0,0);
var eight = 100;
var draw = function(){
strokeWeight(eight);
point(mouseX,mouseY);
eight -= 0.2;
if(eight<0){
noStroke();
}
Here's a modestly efficient way of determining if the user has whited every pixel
Create an array where each canvas pixel is represented by an array element.
var pixels=new Array(canvas.width*canvas.height);
Initially fill the array with all zeros.
Create a variable that hold the # of unique pixels whited out so far.
var whited=0;
When the user passes over a pixel, see if the pixel has already been whited. If it hasn't been whited, change its array value to 1 and increment the whited variable.
var n = mouseY * canvas.width + mouseX
if(pixels[n]=0){
pixels[n]=1;
whited++;
}
You have a winner if the value of whited equals the number of pixels on the canvas.
if(whited==pixels.length){
alert('You have won!');
}
A thought: Instead of making the user find every (tiny) missed pixel, you might consider making a grid so the user has an easier time finding that 1 (larger) missed grid cell instead of finding one missed pixel in a sea of white.
You can go over all the pixels and check if they are not white
for (var i=0;i<imgData.data.length;i+=4)
{
if(imgData.data[i]==0&&imgData.data[i+1]==0&&imgData.data[i+2]==0&&imgData.data[i]+3==0){alert("white pixel")}
}
http://www.w3schools.com/tags/canvas_getimagedata.asp
Since you're using Processing, just walk over the pixels:
void setup() {
...
}
void draw() {
...
}
void yourCheckFunction() {
loadPixels();
boolean allWhite = true;
for(int c: pixels) {
if(brightness(c) < 255) {
// we found a not-white pixel!
allWhite = false;
break;
}
}
if (allWhite) {
// the paint surface is entirely white.
} else {
// there are non-white patches left
}
}
There are lots of ways to optimize this (like chopping up the surface into distinct areas with their own administrative true/false value so you can first check if they were all-white on a previous run, and if so, you don't need to recheck them) but this covers the basics:
assume the canvas is all white pixels
try to invalidate that assumption by finding a not-white pixel
immediately stop checking if you do
if there are none, your loop will end "naturally"
Alternatively, you can track how many pixels your user's action have painted. Once that number of pixels is equal to width*height, all pixels must necessarily be white (see markE's answer for that)

How to draw on an HTML5 Canvas, pixel-by-pixel

Suppose that I have a 900x900 HTML5 Canvas element.
I have a function called computeRow that accepts, as a parameter, the number of a row on the grid and returns an array of 900 numbers. Each number represents a number between 0 and 200. There is an array called colors that contains an array of strings like rgb(0,20,20), for example.
Basically, what I'm saying is that I have a function that tells pixel-by-pixel, what color each pixel in a given row on the canvas is supposed to be. Running this function many times, I can compute a color for every pixel on the canvas.
The process of running computeRow 900 times takes about 0.5 seconds.
However, the drawing of the image takes much longer than that.
What I've done is I've written a function called drawRow that takes an array of 900 numbers as the input and draws them on the canvas. drawRow takes lots longer to run than computeRow! How can I fix this?
drawRow is dead simple. It looks like this:
function drawRow(rowNumber, result /* array */) {
var plot, context, columnNumber, color;
plot = document.getElementById('plot');
context = plot.getContext('2d');
// Iterate over the results for each column in the row, coloring a single pixel on
// the canvas the correct color for each one.
for(columnNumber = 0; columnNumber < width; columnNumber++) {
color = colors[result[columnNumber]];
context.fillStyle = color;
context.fillRect(columnNumber, rowNumber, 1, 1);
}
}
I'm not sure exactly what you are trying to do, so I apologize if I am wrong.
If you are trying to write a color to each pixel on the canvas, this is how you would do it:
var ctx = document.getElementById('plot').getContext('2d');
var imgdata = ctx.getImageData(0,0, 640, 480);
var imgdatalen = imgdata.data.length;
for(var i=0;i<imgdatalen/4;i++){ //iterate over every pixel in the canvas
imgdata.data[4*i] = 255; // RED (0-255)
imgdata.data[4*i+1] = 0; // GREEN (0-255)
imgdata.data[4*i+2] = 0; // BLUE (0-255)
imgdata.data[4*i+3] = 255; // APLHA (0-255)
}
ctx.putImageData(imgdata,0,0);
This is a lot faster than drawing a rectangle for every pixel. The only thing you would need to do is separate you color into rgba() values.
If you read the color values as strings from an array for each pixel it does not really matter what technique you use as the bottleneck would be that part right there.
For each pixel the cost is split on (roughly) these steps:
Look up array (really a node/linked list in JavaScript)
Get string
Pass string to fillStyle
Parse string (internally) into color value
Ready to draw a single pixel
These are very costly operations performance-wise. To get it more efficient you need to convert that color array into something else than an array with strings ahead of the drawing operations.
You can do this several ways:
If the array comes from a server try to format the array as a blob / typed array instead before sending it. This way you can copy the content of the returned array almost as-is to the canvas' pixel buffer.
Use a web workers to parse the array and pass it back as a transferable object which you them copy into the canvas' buffer. This can be copied directly to the canvas - or do it the other way around, transfer the pixel buffer to worker, fill there and return.
Sort the array by color values and update the colors by color groups. This way you can use fillStyle or calculate the color into an Uint32 value which you copy to the canvas using a Uint32 buffer view. This does not work well if the colors are very spread but works ok if the colors represent a small palette.
If you're stuck with the format of the colors then the second option is what I would recommend primarily depending on the size. It makes your code asynchronous so this is an aspect you need to deal with as well (ie. callbacks when operations are done).
You can of course just parse the array on the same thread and find a way to camouflage it a bit for the user in case it creates a noticeable delay (900x900 shouldn't be that big of a deal even for a slower computer).
If you convert the array convert it into unsigned 32 bit values and store the result in a Typed Array. This way you can iterate your canvas pixel buffer using Uint32's instead which is much faster than using byte-per-byte approach.
fillRect is meant to be used for just that - filling an area with a single color, not pixel by pixel. If you do pixel by pixel, it is bound to be slower as you are CPU bound. You can check it by observing the CPU load in these cases. The code will become more performant if
A separate image is created with the required image data filled in. You can use a worker thread to fill this image in the background. An example of using worker threads is available in the blog post at http://gpupowered.org/node/11
Then, blit the image into the 2d context you want using context.drawImage(image, dx, dy).

Get colour of rectangle at specific x,y coordinates

I want to be able to get the color of a pixel at specific x,y
co-ordinates on a canvas (A rectangles color, but the pixel will
sufice).
Is there anyway of doing this with normal javascript without adding any additional libraries?
I'm developing it with the idea of mobile platforms and would prefer not to use external libraries. Thanks
For the answer let's go straight to the source.
You want context.getImageData(x, y, width, height);
This grabs a rectangle out of the canvas and returns all the pixels there in the form of an "ImageData" object. This object in turn has a "data" attribute which is, for all intents and purposes, just a normal Array (it's not, but you can pretend it is if you just want to read from it).
The data array looks like
[r,g,b,a,r,g,b,a,r,g,b,a,...] where r,g,b, and a are the red, green, blue, and alpha channels of the colour of one pixel. The pixels are ordered as if they were being read in an english book (left to right, then top to bottom).
For you purposes, you can just do var pixel = context.getImageData(x,y,1,1).data. Then if you want to know the red part, do pixel[0], green? pixel[1]... and so on.
However remark that in my emprical tests, getImageData is an incredibly expensive operation (especially in Firefox; Chrome handles it faster, but with less bounds-checking). If you expect to do this query many times per-second, it may be worth getting a larger rectangle to cache some results. Of course this won't work if the pixel data is rapidly changing.
Canvas' getImageData() returns an ImageData object that copies the pixel data for the specified rectangle on a canvas.
var color = canvas2d_context.getImageData(pixel_coord_x, pixel_coord_y, 1, 1);
console.log('pixel red value: ' + color.data[0]);
console.log('pixel green value: ' + color.data[1]);
console.log('pixel blue value: ' + color.data[1]);
console.log('pixel alpha value: ' + color.data[1]);
...mostly from http://www.w3schools.com/tags/canvas_getimagedata.asp

Image data in JS

I want to know if I've understood this correctly.
I loop my map and load sprites on the map.
So I decided to store the pixel information in an array so that when I click with my mouse I check if its in a pixel array range and get the id related to it (effectively being pixel accurate for detecting what object was clicked?)
This is my thinking process:
I draw the sprite:
ctx.drawImage(castle[id], abposx, abposy - (imgheight/2));
myImageData[sdata[i][j][1]] =
ctx.getImageData(abposx, abposy, castle[id].width, castle[id].height);
Then some how with left click, check if mouse x and mouse y is inbetween the range of the arrays and return the value of myImageData?
Or have I misunderstood what getImageData is about?
getImageData gives you all of the pixel data for an image. Basically you only need to use getImageData if you are doing any sort of pixel manipulation with the image, like changing its hue/color, or applying a filter, or need specific data, such as the r/g/b, or alpha values. In order to check for pixel perfect collisions you an do something like the following:
var imageData = ctx.getImageData(x, y, 1, 1);
if(imageData.data[3] !== 0){
// you have a collision!
}
imageData.data[0-3] holds an array of data, 0-2 are the color values r/g/b, and 3 is the alpha value. So we assume if the alpha is 0, it must be a transparent portion. Also note, in the example and fiddle I am grabbing the data from the canvas itself, so if there was an image behind it that wasnt transparent it would count as not being transparent. The best way to do it if you have many images that overlap is to keep a copy of the image by itself offscreen somewhere and do a translation of the coordinates to get the position on the image. Heres a good MDN Article explaining getImageData as well.
Live Demo

Pixel Perfect Collision Detection in HTML5 Canvas

I want to check a collision between two Sprites in HTML5 canvas. So for the sake of the discussion, let's assume that both sprites are IMG objects and a collision means that the alpha channel is not 0. Now both of these sprites can have a rotation around the object's center but no other transformation in case this makes this any easier.
Now the obvious solution I came up with would be this:
calculate the transformation matrix for both
figure out a rough estimation of the area where the code should test (like offset of both + calculated extra space for the rotation)
for all the pixels in the intersecting rectangle, transform the coordinate and test the image at the calculated position (rounded to nearest neighbor) for the alpha channel. Then abort on first hit.
The problem I see with that is that a) there are no matrix classes in JavaScript which means I have to do that in JavaScript which could be quite slow, I have to test for collisions every frame which makes this pretty expensive. Furthermore I have to replicate something I already have to do on drawing (or what canvas does for me, setting up the matrices).
I wonder if I'm missing anything here and if there is an easier solution for collision detection.
I'm not a javascript coder but I'd imagine the same optimisation tricks work just as well for Javascript as they do for C++.
Just rotate the corners of the sprite instead of every pixel. Effectively you would be doing something like software texture mapping. You could work out the x,y position of a given pixel using various gradient information. Look up software texture mapping for more info.
If you quadtree decomposed the sprite into "hit" and "non-hit" areas then you could effectively check to see if a given quad tree decomposition is all "non-hit", "all hit" or "possible hit" (ie contains hits and non-hit pixels. The first 2 are trivial to pass through. In the last case you then go down to the next decomposition level and repeat the test. This way you only check the pixels you need too and for large areas of "non-hit" and "hit" you don't have to do such a complex set of checks.
Anyway thats just a couple of thoughts.
I have to replicate something I already have to do on drawing
Well, you could make a new rendering context, plot one rotated white-background mask to it, set the compositing operation to lighter and plot the other rotated mask on top at the given offset.
Now if there's a non-white pixel left, there's a hit. You'd still have to getImageData and sift through the pixels to find that out. You might be able to reduce that workload a bit by scaling the resultant image downwards (relying on anti-aliasing to keep some pixels non-white), but I'm thinking it's probably still going to be quite slow.
I have to test for collisions every frame which makes this pretty expensive.
Yeah, I think realistically you're going to be using precalculated collision tables. If you've got space for it, you could store one hit/no hit bit for every combination of sprite a, sprite b, relative rotation, relative-x-normalised-to-rotation and relative-y-normalised-to-rotation. Depending on how many sprites you have and how many steps of rotation or movement, this could get rather large.
A compromise would be to store the pre-rotated masks of each sprite in a JavaScript array (of Number, giving you 32 bits/pixels of easily &&-able data, or as a character in a Sring, giving you 16 bits) and && each line of intersecting sprite masks together.
Or, give up on pixels and start looking at eg. paths.
Same problem, an alternative solution. First I use getImageData data to find a polygon that surrounds the sprite. Careful here because the implementation works with images with transparent background that have a single solid object. Like a ship. The next step is Ramer Douglas Peucker Algorithm to reduce the number of vertices in the polygon. I finally get a polygon of very few vertices easy and cheap to rotate and check collisions with the other polygons for each sprite.
http://jsfiddle.net/rnrlabs/9dxSg/
var canvas = document.getElementById("canvas");
var context = canvas.getContext("2d");
var img = document.getElementById("img");
context.drawImage(img, 0,0);
var dat = context.getImageData(0,0,img.width, img.height);
// see jsfiddle
var startPixel = findStartPixel(dat, 0);
var path = followPath(startPixel, dat, 0);
// 4 is RDP epsilon
map1 = properRDP(path.map, 4, path.startpixel.x, path.startpixel.y);
// draw
context.beginPath();
context.moveTo(path.startpixel.x, path.startpixel.x);
for(var i = 0; i < map.length; i++) {
var p = map[i];
context.lineTo(p.x, p.y);
}
context.strokeStyle = 'red';
context.closePath();
context.stroke();

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