/* * Tests for imgITools */ const Ci = Components.interfaces; const Cc = Components.classes; /* * dumpToFile() * * For test development, dumps the specified array to a file. * Call |dumpToFile(outData);| in a test to file to a file. */ function dumpToFile(aData) { var outputFile = do_get_tempdir(); outputFile.append("testdump.png"); var outputStream = Cc["@mozilla.org/network/file-output-stream;1"]. createInstance(Ci.nsIFileOutputStream); // WR_ONLY|CREAT|TRUNC outputStream.init(outputFile, 0x02 | 0x08 | 0x20, 0644, null); var bos = Cc["@mozilla.org/binaryoutputstream;1"]. createInstance(Ci.nsIBinaryOutputStream); bos.setOutputStream(outputStream); bos.writeByteArray(aData, aData.length); outputStream.close(); } /* * getFileInputStream() * * Returns an input stream for the specified file. */ function getFileInputStream(aFile) { var inputStream = Cc["@mozilla.org/network/file-input-stream;1"]. createInstance(Ci.nsIFileInputStream); // init the stream as RD_ONLY, -1 == default permissions. inputStream.init(aFile, 0x01, -1, null); // Blah. The image decoders use ReadSegments, which isn't implemented on // file input streams. Use a buffered stream to make it work. var bis = Cc["@mozilla.org/network/buffered-input-stream;1"]. createInstance(Ci.nsIBufferedInputStream); bis.init(inputStream, 1024); return bis; } /* * streamToArray() * * Consumes an input stream, and returns its bytes as an array. */ function streamToArray(aStream) { var size = aStream.available(); // use a binary input stream to grab the bytes. var bis = Cc["@mozilla.org/binaryinputstream;1"]. createInstance(Ci.nsIBinaryInputStream); bis.setInputStream(aStream); var bytes = bis.readByteArray(size); if (size != bytes.length) throw "Didn't read expected number of bytes"; return bytes; } /* * compareArrays * * Compares two arrays, and throws if there's a difference. */ function compareArrays(aArray1, aArray2) { do_check_eq(aArray1.length, aArray2.length); for (var i = 0; i < aArray1.length; i++) if (aArray1[i] != aArray2[i]) throw "arrays differ at index " + i; } /* * checkExpectedError * * Checks to see if a thrown error was expected or not, and if it * matches the expected value. */ function checkExpectedError (aExpectedError, aActualError) { if (aExpectedError) { if (!aActualError) throw "Didn't throw as expected (" + aExpectedError + ")"; if (!aExpectedError.test(aActualError)) throw "Threw (" + aActualError + "), not (" + aExpectedError; // We got the expected error, so make a note in the test log. dump("...that error was expected.\n\n"); } else if (aActualError) { throw "Threw unexpected error: " + aActualError; } } function run_test() { try { /* ========== 0 ========== */ var testnum = 0; var testdesc = "imgITools setup"; var err = null; var imgTools = Cc["@mozilla.org/image/tools;1"]. getService(Ci.imgITools); if (!imgTools) throw "Couldn't get imgITools service" // Ugh, this is an ugly hack. The pixel values we get in Windows are sometimes // +/- 1 value compared to other platforms, so we need to compare against a // different set of reference images. nsIXULRuntime.OS doesn't seem to be // available in xpcshell, so we'll use this as a kludgy way to figure out if // we're running on Windows. var isWindows = ("@mozilla.org/windows-registry-key;1" in Cc); /* ========== 1 ========== */ testnum++; testdesc = "test decoding a PNG"; // 64x64 png, 8415 bytes. var imgName = "image1.png"; var inMimeType = "image/png"; var imgFile = do_get_file(imgName); var istream = getFileInputStream(imgFile); do_check_eq(istream.available(), 8415); // Use decodeImageData for this test even though it's deprecated to ensure that // it correctly forwards to decodeImage and continues to work. var outParam = { value: null }; imgTools.decodeImageData(istream, inMimeType, outParam); var container = outParam.value; // It's not easy to look at the pixel values from JS, so just // check the container's size. do_check_eq(container.width, 64); do_check_eq(container.height, 64); /* ========== 2 ========== */ testnum++; testdesc = "test encoding a scaled JPEG"; // we'll reuse the container from the previous test istream = imgTools.encodeScaledImage(container, "image/jpeg", 16, 16); var encodedBytes = streamToArray(istream); // Get bytes for exected result var refName = "image1png16x16.jpg"; var refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 1078); var referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 3 ========== */ testnum++; testdesc = "test encoding an unscaled JPEG"; // we'll reuse the container from the previous test istream = imgTools.encodeImage(container, "image/jpeg"); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image1png64x64.jpg"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 4503); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 4 ========== */ testnum++; testdesc = "test decoding a JPEG"; // 32x32 jpeg, 3494 bytes. imgName = "image2.jpg"; inMimeType = "image/jpeg"; imgFile = do_get_file(imgName); istream = getFileInputStream(imgFile); do_check_eq(istream.available(), 3494); container = imgTools.decodeImage(istream, inMimeType); // It's not easy to look at the pixel values from JS, so just // check the container's size. do_check_eq(container.width, 32); do_check_eq(container.height, 32); /* ========== 5 ========== */ testnum++; testdesc = "test encoding a scaled PNG"; if (!isWindows) { // we'll reuse the container from the previous test istream = imgTools.encodeScaledImage(container, "image/png", 16, 16); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = isWindows ? "image2jpg16x16-win.png" : "image2jpg16x16.png"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 948); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); } /* ========== 6 ========== */ testnum++; testdesc = "test encoding an unscaled PNG"; if (!isWindows) { // we'll reuse the container from the previous test istream = imgTools.encodeImage(container, "image/png"); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = isWindows ? "image2jpg32x32-win.png" : "image2jpg32x32.png"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 3105); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); } /* ========== 7 ========== */ testnum++; testdesc = "test decoding a ICO"; // 16x16 ico, 1406 bytes. imgName = "image3.ico"; inMimeType = "image/x-icon"; imgFile = do_get_file(imgName); istream = getFileInputStream(imgFile); do_check_eq(istream.available(), 1406); container = imgTools.decodeImage(istream, inMimeType); // It's not easy to look at the pixel values from JS, so just // check the container's size. do_check_eq(container.width, 16); do_check_eq(container.height, 16); /* ========== 8 ========== */ testnum++; testdesc = "test encoding a scaled PNG"; // note that we're scaling UP // we'll reuse the container from the previous test istream = imgTools.encodeScaledImage(container, "image/png", 32, 32); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image3ico32x32.png"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 2285); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 9 ========== */ testnum++; testdesc = "test encoding an unscaled PNG"; // we'll reuse the container from the previous test istream = imgTools.encodeImage(container, "image/png"); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image3ico16x16.png"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 330); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 10 ========== */ testnum++; testdesc = "test decoding a GIF"; // 32x32 gif, 1809 bytes. imgName = "image4.gif"; inMimeType = "image/gif"; imgFile = do_get_file(imgName); istream = getFileInputStream(imgFile); do_check_eq(istream.available(), 1809); container = imgTools.decodeImage(istream, inMimeType); // It's not easy to look at the pixel values from JS, so just // check the container's size. do_check_eq(container.width, 32); do_check_eq(container.height, 32); /* ========== 11 ========== */ testnum++; testdesc = "test encoding an unscaled ICO with format options " + "(format=bmp;bpp=32)"; // we'll reuse the container from the previous test istream = imgTools.encodeImage(container, "image/vnd.microsoft.icon", "format=bmp;bpp=32"); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image4gif32x32bmp32bpp.ico"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 4286); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 12 ========== */ testnum++; testdesc = "test encoding a scaled ICO with format options " + "(format=bmp;bpp=32)"; // we'll reuse the container from the previous test istream = imgTools.encodeScaledImage(container, "image/vnd.microsoft.icon", 16, 16, "format=bmp;bpp=32"); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image4gif16x16bmp32bpp.ico"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 1150); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 13 ========== */ testnum++; testdesc = "test encoding an unscaled ICO with format options " + "(format=bmp;bpp=24)"; // we'll reuse the container from the previous test istream = imgTools.encodeImage(container, "image/vnd.microsoft.icon", "format=bmp;bpp=24"); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image4gif32x32bmp24bpp.ico"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 3262); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 14 ========== */ testnum++; testdesc = "test encoding a scaled ICO with format options " + "(format=bmp;bpp=24)"; // we'll reuse the container from the previous test istream = imgTools.encodeScaledImage(container, "image/vnd.microsoft.icon", 16, 16, "format=bmp;bpp=24"); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image4gif16x16bmp24bpp.ico"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 894); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 15 ========== */ testnum++; testdesc = "test cropping a JPG"; // 32x32 jpeg, 3494 bytes. imgName = "image2.jpg"; inMimeType = "image/jpeg"; imgFile = do_get_file(imgName); istream = getFileInputStream(imgFile); do_check_eq(istream.available(), 3494); container = imgTools.decodeImage(istream, inMimeType); // It's not easy to look at the pixel values from JS, so just // check the container's size. do_check_eq(container.width, 32); do_check_eq(container.height, 32); // encode a cropped image istream = imgTools.encodeCroppedImage(container, "image/jpeg", 0, 0, 16, 16); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image2jpg16x16cropped.jpg"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 879); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 16 ========== */ testnum++; testdesc = "test cropping a JPG with an offset"; // we'll reuse the container from the previous test istream = imgTools.encodeCroppedImage(container, "image/jpeg", 16, 16, 16, 16); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image2jpg16x16cropped2.jpg"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 878); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 17 ========== */ testnum++; testdesc = "test cropping a JPG without a given height"; // we'll reuse the container from the previous test istream = imgTools.encodeCroppedImage(container, "image/jpeg", 0, 0, 16, 0); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image2jpg16x32cropped3.jpg"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 1127); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 18 ========== */ testnum++; testdesc = "test cropping a JPG without a given width"; // we'll reuse the container from the previous test istream = imgTools.encodeCroppedImage(container, "image/jpeg", 0, 0, 0, 16); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image2jpg32x16cropped4.jpg"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 1135); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 19 ========== */ testnum++; testdesc = "test cropping a JPG without a given width and height"; // we'll reuse the container from the previous test istream = imgTools.encodeCroppedImage(container, "image/jpeg", 0, 0, 0, 0); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image2jpg32x32.jpg"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 1634); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 20 ========== */ testnum++; testdesc = "test scaling a JPG without a given width"; // we'll reuse the container from the previous test istream = imgTools.encodeScaledImage(container, "image/jpeg", 0, 16); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image2jpg32x16scaled.jpg"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 1227); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 21 ========== */ testnum++; testdesc = "test scaling a JPG without a given height"; // we'll reuse the container from the previous test istream = imgTools.encodeScaledImage(container, "image/jpeg", 16, 0); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image2jpg16x32scaled.jpg"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 1219); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 22 ========== */ testnum++; testdesc = "test scaling a JPG without a given width and height"; // we'll reuse the container from the previous test istream = imgTools.encodeScaledImage(container, "image/jpeg", 0, 0); encodedBytes = streamToArray(istream); // Get bytes for exected result refName = "image2jpg32x32.jpg"; refFile = do_get_file(refName); istream = getFileInputStream(refFile); do_check_eq(istream.available(), 1634); referenceBytes = streamToArray(istream); // compare the encoder's output to the reference file. compareArrays(encodedBytes, referenceBytes); /* ========== 22 ========== */ testnum++; testdesc = "test invalid arguments for cropping"; var numErrors = 0; try { // width/height can't be negative imgTools.encodeScaledImage(container, "image/jpeg", -1, -1); } catch (e) { numErrors++; } try { // offsets can't be negative imgTools.encodeCroppedImage(container, "image/jpeg", -1, -1, 16, 16); } catch (e) { numErrors++; } try { // width/height can't be negative imgTools.encodeCroppedImage(container, "image/jpeg", 0, 0, -1, -1); } catch (e) { numErrors++; } try { // out of bounds imgTools.encodeCroppedImage(container, "image/jpeg", 17, 17, 16, 16); } catch (e) { numErrors++; } try { // out of bounds imgTools.encodeCroppedImage(container, "image/jpeg", 0, 0, 33, 33); } catch (e) { numErrors++; } try { // out of bounds imgTools.encodeCroppedImage(container, "image/jpeg", 1, 1, 0, 0); } catch (e) { numErrors++; } do_check_eq(numErrors, 6); /* ========== bug 363986 ========== */ testnum = 363986; testdesc = "test PNG and JPEG encoders' Read/ReadSegments methods"; var testData = [{preImage: "image3.ico", preImageMimeType: "image/x-icon", refImage: "image3ico16x16.png", refImageMimeType: "image/png"}, {preImage: "image1.png", preImageMimeType: "image/png", refImage: "image1png64x64.jpg", refImageMimeType: "image/jpeg"}]; for(var i=0; i