| function LMcookdatabase(database, HOMEIMAGES, HOMEANNOTATIONS, NEWHOMEIMAGES, NEWHOMEANNOTATIONS, varargin) | |
| % You can "cook" your own database by reformating the images and the | |
| % annotation files so that the images in the database have some | |
| % characteristics of interest. For instance, you might want a database in | |
| % which all the images are smaller that 256 x 256. Or you might want a | |
| % database of images that have cars, so that each car has a size of 32x32 pixels. | |
| % | |
| % This function captures some of the most common charcteristics for | |
| % standarizing the databases. | |
| % | |
| % List of parameters | |
| % ----------------------- | |
| % 'imagesize' [nrows ncols] | |
| % | |
| % 'objectname' defines which will be the object of interest | |
| % | |
| % 'objectsize' A number between 1 and inf; It is the size of the | |
| % object of interest in the final image. | |
| % | |
| % 'objectlocation' Defines the location of the object in the new image. | |
| % One of these strings: 'original', 'random', 'centered' | |
| % | |
| % 'multiplecrops' One of these strings: 'yes', 'no'. | |
| % If there are multiple instances of the object of | |
| % interest, it will create one image for each instance. | |
| % | |
| % Example: | |
| % The next code generates a new database with street scenes. In the final | |
| % database, there are only images with one car in each image. The images | |
| % will have a maximal size of 256x256 pixels, and the car will have a fixed | |
| % size of 64x64 (tight to the longest dimension). | |
| % | |
| % %Define the root folder for the images | |
| % HOMEIMAGES = 'C:\atb\Databases\CSAILobjectsAndScenes\Images'; % you can set here your default folder | |
| % HOMEANNOTATIONS = 'C:\atb\DATABASES\LabelMe\Annotations'; % you can set here your default folder | |
| % | |
| % %Define the root folder for the images | |
| % NEWHOMEIMAGES = 'C:\atb\Projects\objectsAndScenes\generativeModels\iccv2005\database\streets\Images'; % you can set here your default folder | |
| % NEWHOMEANNOTATIONS = 'C:\atb\Projects\objectsAndScenes\generativeModels\iccv2005\database\streets\Annotations'; % you can set here your default folder | |
| % | |
| % %Create database | |
| % database = LMdatabase(HOMEANNOTATIONS); | |
| % | |
| % %Locate street scenes with only one car. | |
| % [D,j] = LMquery(database, 'object.name', 'car+side'); | |
| % counts = LMcountobject(database(j), 'car'); | |
| % j = j(find(counts==1)); length(j) | |
| % D = LMquery(database(j), 'object.name', 'car+side,building,road'); | |
| % LMdbshowscenes(D, HOMEIMAGES); | |
| % | |
| % %Cook database to fit our requirements: objects of fixed size | |
| % LMcookdatabase(D, HOMEIMAGES, HOMEANNOTATIONS, NEWHOMEIMAGES, NEWHOMEANNOTATIONS, ... | |
| % 'objectname', 'car', 'objectsize', [64 64], 'objectlocation', 'original', 'maximagesize', [256 256]) | |
| variables = {'maximagesize', 'objectname', 'objectsize', 'objectlocation', 'multiplecrops', 'impad', 'minobjectsize', 'polygoninstance'}; | |
| defaults = {[], '', [], 'original', 'no', [], [], []}; | |
| [maximagesize, objectname, objectsize, objectlocation, multiplecrops, impad, minobjectsize, polygoninstance] = ... | |
| parseparameters(varargin, variables, defaults); | |
| % Create structure of files: | |
| Nfiles = length(database); | |
| for i = 1:Nfiles | |
| folders{i} = database(i).annotation.folder; | |
| end | |
| folders = unique(folders); | |
| Nfolders = length(folders); | |
| if length(dir(NEWHOMEIMAGES))>0; error(sprintf('Error: The folder %s already exists.', NEWHOMEIMAGES)); end | |
| if length(dir(NEWHOMEANNOTATIONS))>0; error(sprintf('Error: The folder %s already exists.', NEWHOMEANNOTATIONS)); end | |
| for i = 1:Nfolders | |
| mkdir(NEWHOMEIMAGES, folders{i}); | |
| mkdir(NEWHOMEANNOTATIONS, folders{i}); | |
| end | |
| % Save readme file in the root of the NEWHOMEANNOTATIONS and NEWHOMEIMAGES | |
| readme{1} = 'This database is a subset of the LabelMe dataset.'; | |
| readme{2} = 'http://people.csail.mit.edu/brussell/research/LabelMe/intro.html'; | |
| readme{3} = ''; | |
| readme{4} = 'This dataset has been created with the parameters:'; | |
| for n=1:length(varargin); readme{4+n} = varargin{n}; end | |
| fid = fopen(fullfile(NEWHOMEIMAGES, 'readme.txt'), 'w'); | |
| for i = 1:length(readme) | |
| fprintf(fid, '%s \n', readme{i}); | |
| end | |
| fclose(fid) | |
| % Create new database | |
| for n = 1:Nfiles | |
| clear newannotation newimg err | |
| img = LMimread(database, n, HOMEIMAGES); % Load image | |
| if strcmp(multiplecrops, 'yes') | |
| % we will do the image manipulation by centering on each instance. | |
| Nimages = length(database(n).annotation.object); | |
| for m = 1:Nimages | |
| [newannotation{m}, newimg{m}, crop, scaling, err{m}, msg] = LMcookimage(database(n).annotation, img, varargin{:}, 'polygoninstance', m); | |
| end | |
| else | |
| Nimages = 1; | |
| [newannotation{1}, newimg{1}, crop, scaling, err{1}, msg] = LMcookimage(database(n).annotation, img, varargin{:}); | |
| end | |
| % The images are saved only if there was no upsampling (no blur) | |
| for m = 1:Nimages | |
| if err{m} == 0 | |
| % Save image and annotation | |
| if Nimages==1 | |
| filename = database(n).annotation.filename; | |
| else | |
| filename = sprintf('%s_crop%d.jpg', strrep(database(n).annotation.filename, '.jpg', ''), m); | |
| end | |
| % write new image | |
| imwrite(newimg{m}, fullfile(NEWHOMEIMAGES, database(n).annotation.folder, filename), 'jpg', 'quality', 100); | |
| % write new annotation file | |
| v.annotation = newannotation{m}; | |
| v.annotation.filename = filename; | |
| writeXML(fullfile(NEWHOMEANNOTATIONS, database(n).annotation.folder, strrep(filename,'.jpg','.xml')), v); | |
| figure(1); clf | |
| subplottight(1,2,1) | |
| LMplot(database(n).annotation, img) | |
| subplottight(1,2,2) | |
| LMplot(newannotation{m}, newimg{m}) | |
| title(sprintf('%d/%d', n, Nfiles)) | |
| xlabel(strrep(fullfile(database(n).annotation.folder, filename), '\', '/')) | |
| drawnow | |
| end | |
| end | |
| end | |