Width: ' + sizeX + ', Height: ' + sizeY + ' (make sure this matches your led matrix setup)
' // Draw the image onto the canvas context.drawImage(image, 0, 0, sizeX, sizeY); // Get the pixel data from the canvas var pixelData = context.getImageData(0, 0, sizeX, sizeY).data; // Create an array to hold the RGB values of each pixel var pixelRGBValues = []; // If the first row of the led matrix is right -> left let right2leftAdjust = 1; if (ledSetupSelection == 'l2r'){ right2leftAdjust = 0; } // Loop through the pixel data and get the RGB values of each pixel for (var i = 0; i < pixelData.length; i += 4) { var r = pixelData[i]; var g = pixelData[i + 1]; var b = pixelData[i + 2]; var a = pixelData[i + 3]; let pixel = i/4 let row = Math.floor(pixel/sizeX); let led = pixel; if (ledSetupSelection == 'matrix'){ //Do nothing, the matrix is set upp like the index in the image //Every row starts from the left, i.e. no zigzagging } else if ((row + right2leftAdjust) % 2 === 0) { //Setup is traditional zigzag //right2leftAdjust basically flips the row order if = 1 //Row is left to right //Leave led index as pixel index } else { //Setup is traditional zigzag //Row is right to left //Invert index of row for led let indexOnRow = led - (row * sizeX); let maxIndexOnRow = sizeX - 1; let reversedIndexOnRow = maxIndexOnRow - indexOnRow; led = (row * sizeX) + reversedIndexOnRow; } // Add the RGB values to the pixel RGB values array pixelRGBValues.push([r, g, b, a, led, pixel, row]); } pixelRGBValues.sort((a, b) => a[5] - b[5]); //Copy the values to a new array for resorting let ledRGBValues = [... pixelRGBValues]; //Sort the array based on led index ledRGBValues.sort((a, b) => a[4] - b[4]); //Generate JSON in WLED format let JSONledString = ''; //Set starting values for the segment check to something that is no color let segmentStart = -1; let maxi = ledRGBValues.length; let curentColorIndex = 0 let commandArray = []; //For evry pixel in the LED array for (let i = 0; i < maxi; i++) { let pixel = ledRGBValues[i]; let r = pixel[0]; let g = pixel[1]; let b = pixel[2]; let a = pixel[3]; let segmentString = ''; let segmentEnd = -1; if(segmentValueCheck){ if (segmentStart < 0){ //This is the first led of a new segment segmentStart = i; } //Else we allready have a start index if (i < maxi - 1){ let iNext = i + 1; let nextPixel = ledRGBValues[iNext]; if (nextPixel[0] != r || nextPixel[1] != g || nextPixel[2] != b ){ //Next pixel has new color //The current segment ends with this pixel segmentEnd = i + 1 //WLED wants the NEXT LED as the stop led... if (segmentStart == i && hybridAddressing){ //If only one led/pixel, no segment info needed if (JSONledString == ''){ //If addressing is single, we need to start every command with a starting possition segmentString = '' + i + ','; //Fixed to b2 } else{ segmentString = '' } } else { segmentString = segmentStart + ',' + segmentEnd + ','; } } } else { //This is the last pixel, so the segment must end segmentEnd = i + 1; if (segmentStart + 1 == segmentEnd && hybridAddressing){ //If only one led/pixel, no segment info needed if (JSONledString == ''){ //If addressing is single, we need to start every command with a starting possition segmentString = '' + i + ','; //Fixed to b2 } else{ segmentString = '' } } else { segmentString = segmentStart + ',' + segmentEnd + ','; } } } else{ //Write every pixel if (JSONledString == ''){ //If addressing is single, we need to start every command with a starting possition JSONledString = i //Fixed to b2 } segmentStart = i segmentEnd = i //Segment string should be empty for when addressing single. So no need to set it again. } if (a < 255){ hasTransparency = true; //If ANY pixel has alpha < 255 then this is set to true to warn the user } if (segmentEnd > -1){ //This is the last pixel in the segment, write to the JSONledString //Return color value in selected format let colorValueString = r + ',' + g + ',' + b ; if (hexValueCheck){ const [red, green, blue] = [r, g, b]; colorValueString = `${[red, green, blue].map(x => x.toString(16).padStart(2, '0')).join('')}`; } else{ //do nothing, allready set } // Check if start and end is the same, in which case remove JSONledString += segmentString + colorSeparatorStart + colorValueString + colorSeparatorEnd; fileJSON = JSONledString + segmentString + colorSeparatorStart + colorValueString + colorSeparatorEnd; curentColorIndex = curentColorIndex + 1; // We've just added a new color to the string so up the count with one if (curentColorIndex % maxNoOfColorsInCommandSting === 0 || i == maxi - 1) { //If we have accumulated the max number of colors to send in a single command or if this is the last pixel, we should write the current colorstring to the array commandArray.push(JSONledString); JSONledString = ''; //Start on an new command string } else { //Add a comma to continue the command string JSONledString = JSONledString + ',' } //Reset segment values segmentStart = - 1; } } JSONledString = '' //For every commandString in the array for (let i = 0; i < commandArray.length; i++) { let thisJSONledString = `{"on":true,"bri":${brgh.value},"seg":{"id":${segID},"i":[${commandArray[i]}]}}`; httpArray.push(thisJSONledString); let thiscurlString = `curl -X POST "http://${gurl.value}/json/state" -d \'${thisJSONledString}\' -H "Content-Type: application/json"`; //Aggregated Strings That should be returned to the user if (i > 0){ JSONledString = JSONledString + '\nWARNING! Transparency info detected in image. Transparency (alpha) has been ignored. To ensure you get the result you desire, use only solid colors in your image.
' } infoDiv.innerHTML = imageInfo; canvasDiv.style.display = "block" //Drawing the image drawBoxes(pixelRGBValues, sizeX, sizeY); } }