''' A tool that generates FS API calls to generate a filesystem, and packages the files to work with that. This is called by emcc. You can also call it yourself. You can split your files into "asset bundles", and create each bundle separately with this tool. Then just include the generated js for each and they will load the data and prepare it accordingly. This allows you to share assets and reduce data downloads. Usage: file_packager.py TARGET [--preload A [B..]] [--embed C [D..]] [--exclude E [F..]] [--compress COMPRESSION_DATA] [--crunch[=X]] [--js-output=OUTPUT.js] [--no-force] [--use-preload-cache] [--no-heap-copy] --preload , --embed See emcc --help for more details on those options. --crunch=X Will compress dxt files to crn with quality level X. The crunch commandline tool must be present and CRUNCH should be defined in ~/.emscripten that points to it. JS crunch decompressing code will be added to convert the crn to dds in the browser. crunch-worker.js will be generated in the current directory. You should include that file when packaging your site. DDS files will not be crunched if the .crn is more recent than the .dds. This prevents a lot of unneeded computation. --js-output=FILE Writes output in FILE, if not specified, standard output is used. --no-force Don't create output if no valid input file is specified. --use-preload-cache Stores package in IndexedDB so that subsequent loads don't need to do XHR. Checks package version. --no-heap-copy If specified, the preloaded filesystem is not copied inside the Emscripten HEAP, but kept in a separate typed array outside it. The default, if this is not specified, is to embed the VFS inside the HEAP, so that mmap()ing files in it is a no-op. Passing this flag optimizes for fread() usage, omitting it optimizes for mmap() usage. Notes: * The file packager generates unix-style file paths. So if you are on windows and a file is accessed at subdir\file, in JS it will be subdir/file. For simplicity we treat the web platform as a *NIX. TODO: You can also provide .crn files yourself, pre-crunched. With this option, they will be decompressed to dds files in the browser, exactly the same as if this tool compressed them. ''' import os, sys, shutil, random, uuid, ctypes import posixpath import shared from shared import Compression, execute, suffix, unsuffixed from subprocess import Popen, PIPE, STDOUT import fnmatch if len(sys.argv) == 1: print '''Usage: file_packager.py TARGET [--preload A...] [--embed B...] [--exclude C...] [--compress COMPRESSION_DATA] [--crunch[=X]] [--js-output=OUTPUT.js] [--no-force] [--use-preload-cache] [--no-heap-copy] See the source for more details.''' sys.exit(0) DEBUG = os.environ.get('EMCC_DEBUG') data_target = sys.argv[1] IMAGE_SUFFIXES = ('.jpg', '.png', '.bmp') AUDIO_SUFFIXES = ('.ogg', '.wav', '.mp3') AUDIO_MIMETYPES = { 'ogg': 'audio/ogg', 'wav': 'audio/wav', 'mp3': 'audio/mpeg' } CRUNCH_INPUT_SUFFIX = '.dds' CRUNCH_OUTPUT_SUFFIX = '.crn' DDS_HEADER_SIZE = 128 AV_WORKAROUND = 0 # Set to 1 to randomize file order and add some padding, to work around silly av false positives data_files = [] excluded_patterns = [] leading = '' has_preloaded = False compress_cnt = 0 crunch = 0 plugins = [] jsoutput = None force = True # If set to True, IndexedDB (IDBFS in library_idbfs.js) is used to locally cache VFS XHR so that subsequent # page loads can read the data from the offline cache instead. use_preload_cache = False # If set to True, the blob received from XHR is moved to the Emscripten HEAP, optimizing for mmap() performance. # If set to False, the XHR blob is kept intact, and fread()s etc. are performed directly to that data. This optimizes for minimal memory usage and fread() performance. no_heap_copy = True for arg in sys.argv[2:]: if arg == '--preload': has_preloaded = True leading = 'preload' elif arg == '--embed': leading = 'embed' elif arg == '--exclude': leading = 'exclude' elif arg == '--compress': compress_cnt = 1 Compression.on = True leading = 'compress' elif arg == '--no-force': force = False leading = '' elif arg == '--use-preload-cache': use_preload_cache = True leading = '' elif arg == '--no-heap-copy': no_heap_copy = False leading = '' elif arg.startswith('--js-output'): jsoutput = arg.split('=')[1] if '=' in arg else None leading = '' elif arg.startswith('--crunch'): try: from shared import CRUNCH except Exception, e: print >> sys.stderr, 'could not import CRUNCH (make sure it is defined properly in ~/.emscripten)' raise e crunch = arg.split('=')[1] if '=' in arg else '128' leading = '' elif arg.startswith('--plugin'): plugin = open(arg.split('=')[1], 'r').read() eval(plugin) # should append itself to plugins leading = '' elif leading == 'preload' or leading == 'embed': mode = leading uses_at_notation = '@' in arg if uses_at_notation: srcpath, dstpath = arg.split('@') # User is specifying destination filename explicitly. else: srcpath = dstpath = arg # Use source path as destination path. if os.path.isfile(srcpath) or os.path.isdir(srcpath): data_files.append({ 'srcpath': srcpath, 'dstpath': dstpath, 'mode': mode, 'explicit_dst_path': uses_at_notation }) else: print >> sys.stderr, 'Warning: ' + arg + ' does not exist, ignoring.' elif leading == 'exclude': excluded_patterns.append(arg) elif leading == 'compress': if compress_cnt == 1: Compression.encoder = arg compress_cnt = 2 elif compress_cnt == 2: Compression.decoder = arg compress_cnt = 3 elif compress_cnt == 3: Compression.js_name = arg compress_cnt = 0 else: print >> sys.stderr, 'Unknown parameter:', arg sys.exit(1) if (not force) and len(data_files) == 0: has_preloaded = False ret = ''' var Module; if (typeof Module === 'undefined') Module = eval('(function() { try { return Module || {} } catch(e) { return {} } })()'); if (!Module.expectedDataFileDownloads) { Module.expectedDataFileDownloads = 0; Module.finishedDataFileDownloads = 0; } Module.expectedDataFileDownloads++; (function() { ''' code = ''' function assert(check, msg) { if (!check) throw msg + new Error().stack; } ''' # Win32 code to test whether the given file has the hidden property set. def has_hidden_attribute(filepath): if sys.platform != 'win32': return False try: attrs = ctypes.windll.kernel32.GetFileAttributesW(unicode(filepath)) assert attrs != -1 result = bool(attrs & 2) except (AttributeError, AssertionError): result = False return result # The packager should never preload/embed files if the file is hidden (Win32). # or it matches any pattern specified in --exclude def should_ignore(fullname): if has_hidden_attribute(fullname): return True for p in excluded_patterns: if fnmatch.fnmatch(fullname, p): return True return False # Expand directories into individual files def add(arg, dirname, names): # rootpathsrc: The path name of the root directory on the local FS we are adding to emscripten virtual FS. # rootpathdst: The name we want to make the source path available on the emscripten virtual FS. mode, rootpathsrc, rootpathdst = arg new_names = [] for name in names: fullname = os.path.join(dirname, name) if should_ignore(fullname): if DEBUG: print >> sys.stderr, 'Skipping file "' + fullname + '" from inclusion in the emscripten virtual file system.' else: new_names.append(name) if not os.path.isdir(fullname): dstpath = os.path.join(rootpathdst, os.path.relpath(fullname, rootpathsrc)) # Convert source filename relative to root directory of target FS. new_data_files.append({ 'srcpath': fullname, 'dstpath': dstpath, 'mode': mode, 'explicit_dst_path': True }) del names[:] names.extend(new_names) new_data_files = [] for file_ in data_files: if not should_ignore(file_['srcpath']): if os.path.isdir(file_['srcpath']): os.path.walk(file_['srcpath'], add, [file_['mode'], file_['srcpath'], file_['dstpath']]) else: new_data_files.append(file_) data_files = filter(lambda file_: not os.path.isdir(file_['srcpath']), new_data_files) if len(data_files) == 0: print >> sys.stderr, 'Nothing to do!' sys.exit(1) # Absolutize paths, and check that they make sense curr_abspath = os.path.abspath(os.getcwd()) # os.getcwd() always returns the hard path with any symbolic links resolved, even if we cd'd into a symbolic link. for file_ in data_files: if not file_['explicit_dst_path']: # This file was not defined with src@dst, so we inferred the destination from the source. In that case, # we require that the destination not be under the current location path = file_['dstpath'] abspath = os.path.realpath(os.path.abspath(path)) # Use os.path.realpath to resolve any symbolic links to hard paths, to match the structure in curr_abspath. if DEBUG: print >> sys.stderr, path, abspath, curr_abspath if not abspath.startswith(curr_abspath): print >> sys.stderr, 'Error: Embedding "%s" which is below the current directory "%s". This is invalid since the current directory becomes the root that the generated code will see' % (path, curr_abspath) sys.exit(1) file_['dstpath'] = abspath[len(curr_abspath)+1:] if os.path.isabs(path): print >> sys.stderr, 'Warning: Embedding an absolute file/directory name "' + path + '" to the virtual filesystem. The file will be made available in the relative path "' + file_['dstpath'] + '". You can use the explicit syntax --preload-file srcpath@dstpath to explicitly specify the target location the absolute source path should be directed to.' for file_ in data_files: file_['dstpath'] = file_['dstpath'].replace(os.path.sep, '/') # name in the filesystem, native and emulated if file_['dstpath'].endswith('/'): # If user has submitted a directory name as the destination but omitted the destination filename, use the filename from source file file_['dstpath'] = file_['dstpath'] + os.path.basename(file_['srcpath']) # make destination path always relative to the root file_['dstpath'] = posixpath.normpath(os.path.join('/', file_['dstpath'])) if DEBUG: print >> sys.stderr, 'Packaging file "' + file_['srcpath'] + '" to VFS in path "' + file_['dstpath'] + '".' # Remove duplicates (can occur naively, for example preload dir/, preload dir/subdir/) seen = {} def was_seen(name): if seen.get(name): return True seen[name] = 1 return False data_files = filter(lambda file_: not was_seen(file_['dstpath']), data_files) if AV_WORKAROUND: random.shuffle(data_files) # Apply plugins for file_ in data_files: for plugin in plugins: plugin(file_) # Crunch files if crunch: shutil.copyfile(shared.path_from_root('tools', 'crunch-worker.js'), 'crunch-worker.js') ret += ''' var decrunchWorker = new Worker('crunch-worker.js'); var decrunchCallbacks = []; decrunchWorker.onmessage = function(msg) { decrunchCallbacks[msg.data.callbackID](msg.data.data); console.log('decrunched ' + msg.data.filename + ' in ' + msg.data.time + ' ms, ' + msg.data.data.length + ' bytes'); decrunchCallbacks[msg.data.callbackID] = null; }; function requestDecrunch(filename, data, callback) { decrunchWorker.postMessage({ filename: filename, data: new Uint8Array(data), callbackID: decrunchCallbacks.length }); decrunchCallbacks.push(callback); } ''' for file_ in data_files: if file_['dstpath'].endswith(CRUNCH_INPUT_SUFFIX): src_dds_name = file_['srcpath'] src_crunch_name = unsuffixed(src_dds_name) + CRUNCH_OUTPUT_SUFFIX # Preload/embed the .crn version instead of the .dds version, but use the .dds suffix for the target file in the virtual FS. file_['srcpath'] = src_crunch_name try: # Do not crunch if crunched version exists and is more recent than dds source crunch_time = os.stat(src_crunch_name).st_mtime dds_time = os.stat(src_dds_name).st_mtime if dds_time < crunch_time: continue except: pass # if one of them does not exist, continue on # guess at format. this lets us tell crunch to not try to be clever and use odd formats like DXT5_AGBR try: format = Popen(['file', file_['srcpath']], stdout=PIPE).communicate()[0] if 'DXT5' in format: format = ['-dxt5'] elif 'DXT1' in format: format = ['-dxt1'] else: raise Exception('unknown format') except: format = [] Popen([CRUNCH, '-outsamedir', '-file', src_dds_name, '-quality', crunch] + format, stdout=sys.stderr).communicate() #if not os.path.exists(os.path.basename(crunch_name)): # print >> sys.stderr, 'Failed to crunch, perhaps a weird dxt format? Looking for a source PNG for the DDS' # Popen([CRUNCH, '-file', unsuffixed(file_['srcpath']) + '.png', '-quality', crunch] + format, stdout=sys.stderr).communicate() assert os.path.exists(src_crunch_name), 'crunch failed to generate output' # prepend the dds header crunched = open(src_crunch_name, 'rb').read() c = open(src_crunch_name, 'wb') c.write(open(src_dds_name, 'rb').read()[:DDS_HEADER_SIZE]) c.write(crunched) c.close() # Set up folders partial_dirs = [] for file_ in data_files: dirname = os.path.dirname(file_['dstpath']) dirname = dirname.lstrip('/') # absolute paths start with '/', remove that if dirname != '': parts = dirname.split('/') for i in range(len(parts)): partial = '/'.join(parts[:i+1]) if partial not in partial_dirs: code += '''Module['FS_createPath']('/%s', '%s', true, true);\n''' % ('/'.join(parts[:i]), parts[i]) partial_dirs.append(partial) if has_preloaded: # Bundle all datafiles into one archive. Avoids doing lots of simultaneous XHRs which has overhead. data = open(data_target, 'wb') start = 0 for file_ in data_files: file_['data_start'] = start curr = open(file_['srcpath'], 'rb').read() file_['data_end'] = start + len(curr) if AV_WORKAROUND: curr += '\x00' #print >> sys.stderr, 'bundling', file_['srcpath'], file_['dstpath'], file_['data_start'], file_['data_end'] start += len(curr) data.write(curr) data.close() # TODO: sha256sum on data_target if Compression.on: Compression.compress(data_target) # Data requests - for getting a block of data out of the big archive - have a similar API to XHRs code += ''' function DataRequest(start, end, crunched, audio) { this.start = start; this.end = end; this.crunched = crunched; this.audio = audio; } DataRequest.prototype = { requests: {}, open: function(mode, name) { this.name = name; this.requests[name] = this; Module['addRunDependency']('fp ' + this.name); }, send: function() {}, onload: function() { var byteArray = this.byteArray.subarray(this.start, this.end); %s this.finish(byteArray); %s }, finish: function(byteArray) { var that = this; Module['FS_createPreloadedFile'](this.name, null, byteArray, true, true, function() { Module['removeRunDependency']('fp ' + that.name); }, function() { if (that.audio) { Module['removeRunDependency']('fp ' + that.name); // workaround for chromium bug 124926 (still no audio with this, but at least we don't hang) } else { Module.printErr('Preloading file ' + that.name + ' failed'); } }, false, true); // canOwn this data in the filesystem, it is a slide into the heap that will never change this.requests[this.name] = null; }, }; ''' % ('' if not crunch else ''' if (this.crunched) { var ddsHeader = byteArray.subarray(0, 128); var that = this; requestDecrunch(this.name, byteArray.subarray(128), function(ddsData) { byteArray = new Uint8Array(ddsHeader.length + ddsData.length); byteArray.set(ddsHeader, 0); byteArray.set(ddsData, 128); that.finish(byteArray); }); } else { ''', '' if not crunch else ''' } ''') counter = 0 for file_ in data_files: filename = file_['dstpath'] dirname = os.path.dirname(filename) basename = os.path.basename(filename) if file_['mode'] == 'embed': # Embed data = map(ord, open(file_['srcpath'], 'rb').read()) if not data: str_data = '[]' else: str_data = '' chunk_size = 10240 while len(data) > 0: chunk = data[:chunk_size] data = data[chunk_size:] if not str_data: str_data = str(chunk) else: str_data += '.concat(' + str(chunk) + ')' code += '''Module['FS_createDataFile']('%s', '%s', %s, true, true);\n''' % (dirname, basename, str_data) elif file_['mode'] == 'preload': # Preload varname = 'filePreload%d' % counter counter += 1 code += ''' new DataRequest(%(start)d, %(end)d, %(crunched)s, %(audio)s).open('GET', '%(filename)s'); ''' % { 'filename': file_['dstpath'], 'start': file_['data_start'], 'end': file_['data_end'], 'crunched': '1' if crunch and filename.endswith(CRUNCH_INPUT_SUFFIX) else '0', 'audio': '1' if filename[-4:] in AUDIO_SUFFIXES else '0', } else: assert 0 if has_preloaded: # Get the big archive and split it up if no_heap_copy: use_data = ''' // copy the entire loaded file into a spot in the heap. Files will refer to slices in that. They cannot be freed though. var ptr = Module['_malloc'](byteArray.length); Module['HEAPU8'].set(byteArray, ptr); DataRequest.prototype.byteArray = Module['HEAPU8'].subarray(ptr, ptr+byteArray.length); ''' else: use_data = ''' // Reuse the bytearray from the XHR as the source for file reads. DataRequest.prototype.byteArray = byteArray; ''' for file_ in data_files: if file_['mode'] == 'preload': use_data += ' DataRequest.prototype.requests["%s"].onload();\n' % (file_['dstpath']) use_data += " Module['removeRunDependency']('datafile_%s');\n" % data_target if Compression.on: use_data = ''' Module["decompress"](byteArray, function(decompressed) { byteArray = new Uint8Array(decompressed); %s }); ''' % use_data package_uuid = uuid.uuid4(); package_name = Compression.compressed_name(data_target) if Compression.on else data_target statinfo = os.stat(package_name) remote_package_size = statinfo.st_size remote_package_name = os.path.basename(package_name) ret += r''' var PACKAGE_PATH; if (typeof window === 'object') { PACKAGE_PATH = window['encodeURIComponent'](window.location.pathname.toString().substring(0, window.location.pathname.toString().lastIndexOf('/')) + '/'); } else { // worker PACKAGE_PATH = encodeURIComponent(location.pathname.toString().substring(0, location.pathname.toString().lastIndexOf('/')) + '/'); } var PACKAGE_NAME = '%s'; var REMOTE_PACKAGE_NAME = (Module['filePackagePrefixURL'] || '') + '%s'; var REMOTE_PACKAGE_SIZE = %d; var PACKAGE_UUID = '%s'; ''' % (data_target, remote_package_name, remote_package_size, package_uuid) if use_preload_cache: code += r''' var indexedDB = window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB; var IDB_RO = "readonly"; var IDB_RW = "readwrite"; var DB_NAME = 'EM_PRELOAD_CACHE'; var DB_VERSION = 1; var METADATA_STORE_NAME = 'METADATA'; var PACKAGE_STORE_NAME = 'PACKAGES'; function openDatabase(callback, errback) { try { var openRequest = indexedDB.open(DB_NAME, DB_VERSION); } catch (e) { return errback(e); } openRequest.onupgradeneeded = function(event) { var db = event.target.result; if(db.objectStoreNames.contains(PACKAGE_STORE_NAME)) { db.deleteObjectStore(PACKAGE_STORE_NAME); } var packages = db.createObjectStore(PACKAGE_STORE_NAME); if(db.objectStoreNames.contains(METADATA_STORE_NAME)) { db.deleteObjectStore(METADATA_STORE_NAME); } var metadata = db.createObjectStore(METADATA_STORE_NAME); }; openRequest.onsuccess = function(event) { var db = event.target.result; callback(db); }; openRequest.onerror = function(error) { errback(error); }; }; /* Check if there's a cached package, and if so whether it's the latest available */ function checkCachedPackage(db, packageName, callback, errback) { var transaction = db.transaction([METADATA_STORE_NAME], IDB_RO); var metadata = transaction.objectStore(METADATA_STORE_NAME); var getRequest = metadata.get(packageName); getRequest.onsuccess = function(event) { var result = event.target.result; if (!result) { return callback(false); } else { return callback(PACKAGE_UUID === result.uuid); } }; getRequest.onerror = function(error) { errback(error); }; }; function fetchCachedPackage(db, packageName, callback, errback) { var transaction = db.transaction([PACKAGE_STORE_NAME], IDB_RO); var packages = transaction.objectStore(PACKAGE_STORE_NAME); var getRequest = packages.get(packageName); getRequest.onsuccess = function(event) { var result = event.target.result; callback(result); }; getRequest.onerror = function(error) { errback(error); }; }; function cacheRemotePackage(db, packageName, packageData, packageMeta, callback, errback) { var transaction = db.transaction([PACKAGE_STORE_NAME, METADATA_STORE_NAME], IDB_RW); var packages = transaction.objectStore(PACKAGE_STORE_NAME); var metadata = transaction.objectStore(METADATA_STORE_NAME); var putPackageRequest = packages.put(packageData, packageName); putPackageRequest.onsuccess = function(event) { var putMetadataRequest = metadata.put(packageMeta, packageName); putMetadataRequest.onsuccess = function(event) { callback(packageData); }; putMetadataRequest.onerror = function(error) { errback(error); }; }; putPackageRequest.onerror = function(error) { errback(error); }; }; ''' ret += r''' function fetchRemotePackage(packageName, packageSize, callback, errback) { var xhr = new XMLHttpRequest(); xhr.open('GET', packageName, true); xhr.responseType = 'arraybuffer'; xhr.onprogress = function(event) { var url = packageName; var size = packageSize; if (event.total) size = event.total; if (event.loaded) { if (!xhr.addedTotal) { xhr.addedTotal = true; if (!Module.dataFileDownloads) Module.dataFileDownloads = {}; Module.dataFileDownloads[url] = { loaded: event.loaded, total: size }; } else { Module.dataFileDownloads[url].loaded = event.loaded; } var total = 0; var loaded = 0; var num = 0; for (var download in Module.dataFileDownloads) { var data = Module.dataFileDownloads[download]; total += data.total; loaded += data.loaded; num++; } total = Math.ceil(total * Module.expectedDataFileDownloads/num); if (Module['setStatus']) Module['setStatus']('Downloading data... (' + loaded + '/' + total + ')'); } else if (!Module.dataFileDownloads) { if (Module['setStatus']) Module['setStatus']('Downloading data...'); } }; xhr.onload = function(event) { var packageData = xhr.response; callback(packageData); }; xhr.send(null); }; function handleError(error) { console.error('package error:', error); }; ''' code += r''' function processPackageData(arrayBuffer) { Module.finishedDataFileDownloads++; assert(arrayBuffer, 'Loading data file failed.'); var byteArray = new Uint8Array(arrayBuffer); var curr; %s }; Module['addRunDependency']('datafile_%s'); ''' % (use_data, data_target) # use basename because from the browser's point of view, we need to find the datafile in the same dir as the html file code += r''' if (!Module.preloadResults) Module.preloadResults = {}; ''' if use_preload_cache: code += r''' function preloadFallback(error) { console.error(error); console.error('falling back to default preload behavior'); fetchRemotePackage(REMOTE_PACKAGE_NAME, REMOTE_PACKAGE_SIZE, processPackageData, handleError); }; openDatabase( function(db) { checkCachedPackage(db, PACKAGE_PATH + PACKAGE_NAME, function(useCached) { Module.preloadResults[PACKAGE_NAME] = {fromCache: useCached}; if (useCached) { console.info('loading ' + PACKAGE_NAME + ' from cache'); fetchCachedPackage(db, PACKAGE_PATH + PACKAGE_NAME, processPackageData, preloadFallback); } else { console.info('loading ' + PACKAGE_NAME + ' from remote'); fetchRemotePackage(REMOTE_PACKAGE_NAME, REMOTE_PACKAGE_SIZE, function(packageData) { cacheRemotePackage(db, PACKAGE_PATH + PACKAGE_NAME, packageData, {uuid:PACKAGE_UUID}, processPackageData, function(error) { console.error(error); processPackageData(packageData); }); } , preloadFallback); } } , preloadFallback); } , preloadFallback); if (Module['setStatus']) Module['setStatus']('Downloading...'); ''' else: # Not using preload cache, so we might as well start the xhr ASAP, potentially before JS parsing of the main codebase if it's after us. # Only tricky bit is the fetch is async, but also when runWithFS is called is async, so we handle both orderings. ret += r''' var fetched = null, fetchedCallback = null; fetchRemotePackage(REMOTE_PACKAGE_NAME, REMOTE_PACKAGE_SIZE, function(data) { if (fetchedCallback) { fetchedCallback(data); fetchedCallback = null; } else { fetched = data; } }, handleError); ''' code += r''' Module.preloadResults[PACKAGE_NAME] = {fromCache: false}; if (fetched) { processPackageData(fetched); fetched = null; } else { fetchedCallback = processPackageData; } ''' ret += ''' function runWithFS() { ''' ret += code ret += ''' } if (Module['calledRun']) { runWithFS(); } else { if (!Module['preRun']) Module['preRun'] = []; Module["preRun"].push(runWithFS); // FS is not initialized yet, wait for it } ''' if crunch: ret += ''' if (!Module['postRun']) Module['postRun'] = []; Module["postRun"].push(function() { decrunchWorker.terminate(); }); ''' ret += ''' })(); ''' if force or len(data_files) > 0: if jsoutput == None: print ret else: f = open(jsoutput, 'w') f.write(ret)