public static void main(String[] args) throws IOException {
// ---Устанавливаем и инициализируем компоненты------------
DesktopSetup.deploy();
ImageAWT.installComponent(new RedImageAWT());
CV.installComponent(new RedCV());
// ---Читаем файлы-----------------------------
File input_folder = LocalFileSystem.ApplicationHome().child("input");
File output_folder = LocalFileSystem.ApplicationHome().child("output");
File file_1 = input_folder.child("3.jpg");
ColorMap color_map_1 = readImage(file_1);
// ---Конвертируем пикчу в λ-изображение---------------
ColoredλImage image_1 = color_map_1.getLambdaImage();
Rectangle image_1_size = Geometry.newRectangle(color_map_1.getWidth(), color_map_1.getHeight());
// --- Обрабатываем--------------------------
ColoredλImage result = производная(image_1, image_1_size);
// --- Добавим яркости
result = bright(result);
// --- Инвертируем ----------------
// result = CV.invert(result); // для этого надо разкоментировать эту
// строку убрав палки // в начале
// --- Сохраняем результат -------------------
File result_file = output_folder.child("result.png");
saveResult(result, image_1_size, result_file);
// На выходе видны артефакты сжатия
}
public static void main(final String[] args) throws IOException, URISyntaxException {
DesktopSetup.deploy();
Json.installComponent("com.jfixby.cmns.adopted.gdx.json.RedJson");
final File words_folder = LocalFileSystem.ApplicationHome().child("words");
final ChildrenList words_files = words_folder.listDirectChildren();
final WordsSorter sorter = new WordsSorter(false);
for (int i = 0; i < words_files.size(); i++) {
final File file = words_files.getElementAt(i);
final String file_name = file.getName();
if (file_name.startsWith("#")) {
continue;
}
L.d("reading", file_name);
final String data = file.readToString();
L.d("parsing", file_name);
final WordCollectorFile content = Json.deserializeFromString(WordCollectorFile.class, data);
final List<WordCollector> split = Collections.newList(content.values);
L.d(" adding", split.size());
sorter.addOthers(split);
}
sorter.filter(1);
sorter.sort();
// sorter.print();
final Collection<WordCollector> terms_list = sorter.list();
terms_list.print("terms_list", 0, 500);
final Random random = new Random();
final int EXTRACTIONS = 100;
final int NUMBER_OF_TERMS = 8;
for (int i = 0; ; i++) {
final List<String> batch = Collections.newList();
for (int k = 0; k < EXTRACTIONS; k++) {
final String request = generateRequest(NUMBER_OF_TERMS, terms_list, random);
batch.add(request);
}
batch.print("batch generated");
for (int k = 0; k < batch.size(); k++) {
final String request = batch.getElementAt(k);
final String request_url = template + request.replaceAll(" ", "+");
L.d(request, request_url);
openUrl(request_url);
Sys.sleep(10 * 1000);
}
}
}
public static void main(String[] args) throws IOException {
DesktopSetup.deploy();
TextureSlicer.installComponent(new RedTextureSlicer());
File input_folder = LocalFileSystem.ApplicationHome().child("input");
File output_folder = LocalFileSystem.ApplicationHome().child("output");
File input_file = input_folder.child("example.jpg");
output_folder.makeFolder();
output_folder.clearFolder();
TextureSlicerSpecs specs = TextureSlicer.newDecompositionSpecs();
specs.setInputFile(input_file);
int tile_size = 256 * 2;
int margin = TextureSlicerSpecs.MIN_TILE_SIZE / 2;
specs.setTileWidth(tile_size - 2 * margin);
specs.setTileHeight(tile_size - 2 * margin);
specs.setMargin(margin);
ID package_name = Names.newID("com.jfixby.tool.texture.slicer.example");
specs.setNameSpacePrefix(package_name);
specs.setOutputFolder(output_folder);
TextureSlicingResult result = TextureSlicer.decompose(specs);
{ // Save resulting structure info
L.d("output", result.getRasterID());
SlicesCompositionInfo composition = result.getTilesComposition();
SlicesCompositionsContainer container = new SlicesCompositionsContainer();
container.content.addElement(composition);
String data = Json.serializeToString(container).toString();
ID sctruct_package_name = package_name.child(TextureSlicerSpecs.TILE_MAP_FILE_EXTENSION);
String struct_pkg_name = sctruct_package_name.toString();
File container_file = output_folder.child(struct_pkg_name);
container_file.writeString(data);
// com.badlogic.gdx.utils.Json j = new
// com.badlogic.gdx.utils.Json();
JsonValue gdx_json = new JsonReader().parse(data);
L.d("structure:");
L.d(gdx_json.toString());
}
}
public static void main(final String[] args) {
DesktopSetup.deploy();
final RelativePath target = JUtils.newRelativePath();
final AmazonS3 s3 = new AmazonS3Client(new ProfileCredentialsProvider());
final ListObjectsRequest request = new ListObjectsRequest().withBucketName("jfix.by");
final String prefix = "/";
request.withPrefix("wp-content");
request.setDelimiter("");
final ObjectListing objectListing = s3.listObjects(request);
final List<String> prefixes = Collections.newList(objectListing.getCommonPrefixes());
prefixes.print("prefixes");
final List<S3ObjectSummary> summs = Collections.newList(objectListing.getObjectSummaries());
}
public static void main(String[] args) {
DesktopSetup.deploy();
L.d("No memoization:");
L.d("FACTORIAL(5)", FACTORIAL.val(5));
L.d("FACTORIAL(5)", FACTORIAL.val(5));
L.d("FACTORIAL(5)", FACTORIAL.val(5));
/*
* λ-function with Memoization: stores the results of expensive function
* calls and returns the cached result when the same inputs occur again.
*/
FACTORIAL = Lambda.cache(FACTORIAL);
L.d("Memoization enabled:");
L.d("FACTORIAL(5)", FACTORIAL.val(5));
L.d("FACTORIAL(5)", FACTORIAL.val(5));
L.d("FACTORIAL(5)", FACTORIAL.val(5));
}