コード例 #1
0
def processFile(l):
    
    def localCleanup(output_path, base_names):
        for base_name in base_names:
            tryRemove(os.path.join(output_path, base_name))
    
    js_file_path = l[0]
    base_name = os.path.splitext(os.path.basename(js_file_path))[0]
    
    pid = int(multiprocessing.current_process().ident)

    candidates = []
    
    try:
#     if True:
        # Temp files to be created during processing
        path_tmp = 'tmp_%d.js' % (pid)
        path_tmp_b = 'tmp_%d.b.js' % (pid)
        path_tmp_b_a = 'tmp_%d.b.a.js' % (pid)
        path_tmp_u = 'tmp_%d.u.js' % (pid)
        path_tmp_u_a = 'tmp_%d.u.a.js' % (pid)
        path_tmp_unugly = 'tmp_%d.n2p.js' % (pid)
        path_tmp_jsnice = 'tmp_%d.jsnice.js' % (pid)
        
        f2 = 'tmp_%d.no_renaming.js' % (pid)
        f3 = 'tmp_%d.basic_renaming.js' % (pid)
        f4 = 'tmp_%d.hash_renaming.js' % (pid)
        f5 = 'tmp_%d.hash_def_one_renaming.js' % (pid)
        f6 = 'tmp_%d.hash_def_two_renaming.js' % (pid)
        
        path_orig = '%s.js' % (base_name)
        path_ugly = '%s.u.js' % (base_name)
        path_unugly = '%s.n2p.js' % (base_name)
        path_jsnice = '%s.jsnice.js' % (base_name)
        
        # Strip comments, replace literals, etc
        try:
            prepro = Preprocessor(os.path.join(corpus_root, js_file_path))
            prepro.write_temp_file(path_tmp)
        except:
            cleanup(pid)
            return (js_file_path, None, 'Preprocessor fail')
        
        # Pass through beautifier to fix layout
        clear = Beautifier()
        ok = clear.run(path_tmp, path_tmp_b+'.tmp1')
        if not ok:
            cleanup(pid)
            return (js_file_path, None, 'Beautifier 1 fail')
         
        jsNiceBeautifier = JSNice(flags=['--no-types', '--no-rename'])
        
        (ok, _out, _err) = jsNiceBeautifier.run(path_tmp_b+'.tmp1', path_tmp_b+'.tmp2')
        if not ok:
            cleanup(pid)
            return (js_file_path, None, 'JSNice Beautifier 1 fail')

        ok = clear.run(path_tmp_b+'.tmp2', path_tmp_b)
        if not ok:
            cleanup(pid)
            return (js_file_path, None, 'Beautifier 1 fail')
         
        # Minify
        ugly = Uglifier()
        ok = ugly.run(path_tmp_b, path_tmp_u)
        
        if not ok:
            cleanup(pid)
            return (js_file_path, None, 'Uglifier fail')
        
        # Num tokens before vs after
        try:
            tok_clear = Lexer(path_tmp_b).tokenList
            tok_ugly = Lexer(path_tmp_u).tokenList
        except:
            cleanup(pid)
            return (js_file_path, None, 'Lexer fail')
       
        # For now only work with minified files that have
        # the same number of tokens as the originals
        if not len(tok_clear) == len(tok_ugly):
            cleanup(pid)
            return (js_file_path, None, 'Num tokens mismatch')
        
        # Align minified and clear files, in case the beautifier 
        # did something weird
        try:
            aligner = Aligner()
            # This is already the baseline corpus, no (smart) renaming yet
            aligner.align(path_tmp_b, path_tmp_u)
        except:
            cleanup(pid)
            return (js_file_path, None, 'Aligner fail')
        
        try:
#             iBuilder_clear = IndexBuilder(Lexer(path_tmp_b_a).tokenList)
            iBuilder_ugly = IndexBuilder(Lexer(path_tmp_u_a).tokenList)
        except:
            cleanup(pid)
            return (js_file_path, None, 'IndexBuilder fail')
        
        
        # Store original and uglified versions
        ok = clear.run(path_tmp_u_a, os.path.join(output_path, path_ugly))
        if not ok:
            cleanup(pid)
            localCleanup(output_path, [path_ugly])
            return (js_file_path, None, 'Beautifier 2 fail')
        
        ok = clear.run(path_tmp_b_a, os.path.join(output_path, path_orig))
        if not ok:
            cleanup(pid)
            localCleanup(output_path, [path_ugly, path_orig])
            return (js_file_path, None, 'Beautifier 3 fail')
        
        
        # Run the JSNice from http://www.nice2predict.org
        unuglifyJS = UnuglifyJS()
        (ok, _out, _err) = unuglifyJS.run(path_tmp_b_a, path_tmp_unugly)
        if not ok:
            cleanup(pid)
            localCleanup(output_path, [path_ugly, path_orig])
            return (js_file_path, None, 'Nice2Predict fail')
        
        ok = clear.run(path_tmp_unugly, path_tmp_unugly+'.tmp1')
        if not ok:
            cleanup(pid)
            localCleanup(output_path, [path_ugly, path_orig, path_unugly])
            return (js_file_path, None, 'Beautifier 4 fail')
        
        (ok, _out, _err) = jsNiceBeautifier.run(path_tmp_unugly+'.tmp1', path_tmp_unugly+'.tmp2')
        if not ok:
            cleanup(pid)
            return (js_file_path, None, 'JSNice Beautifier 2 fail')
    
        ok = clear.run(path_tmp_unugly+'.tmp2', os.path.join(output_path, path_unugly))
        if not ok:
            cleanup(pid)
            localCleanup(output_path, [path_ugly, path_orig, path_unugly])
            return (js_file_path, None, 'Beautifier 4 fail')

        try:
            scopeAnalyst = ScopeAnalyst(os.path.join(
                                 os.path.dirname(os.path.realpath(__file__)), 
                                 path_tmp_unugly))
            nameOrigin = scopeAnalyst.nameOrigin
            for (name, def_scope) in nameOrigin.iterkeys():
                candidates.append(('Nice2Predict', def_scope, name, '', ''))
        except:
            cleanup(pid)
            localCleanup(output_path, [path_ugly, path_orig, path_unugly])
            return (js_file_path, None, 'ScopeAnalyst fail')
    
    
    
        # Run the JSNice from http://www.jsnice.org
        jsNice = JSNice()
        (ok, _out, _err) = jsNice.run(path_tmp_b_a, path_tmp_jsnice)
        if not ok:
            cleanup(pid)
            localCleanup(output_path, [path_ugly, path_orig, path_unugly])
            return (js_file_path, None, 'JSNice fail')

        ok = clear.run(path_tmp_jsnice, os.path.join(output_path, path_jsnice))
        if not ok:
            cleanup(pid)
            localCleanup(output_path, [path_ugly, path_orig, \
                                       path_unugly, path_jsnice])
            return (js_file_path, None, 'Beautifier 5 fail')
        
        try:
            scopeAnalyst = ScopeAnalyst(os.path.join(
                                 os.path.dirname(os.path.realpath(__file__)), 
                                 path_tmp_jsnice))
            nameOrigin = scopeAnalyst.nameOrigin
            for (name, def_scope) in nameOrigin.iterkeys():
                candidates.append(('JSNice', def_scope, name, '', ''))
        except:
            cleanup(pid)
            localCleanup(output_path, [path_ugly, path_orig, \
                                       path_unugly, path_jsnice])
            return (js_file_path, None, 'ScopeAnalyst fail')
        
        
        
        # Compute scoping: name2scope is a dictionary where keys
        # are (name, start_index) tuples and values are scope identifiers. 
        # Note: start_index is a flat (unidimensional) index, 
        # not a (line_chr_idx, col_chr_idx) index.
        try:
            scopeAnalyst = ScopeAnalyst(os.path.join(
                                 os.path.dirname(os.path.realpath(__file__)), 
                                 path_tmp_u_a))
            _name2defScope = scopeAnalyst.resolve_scope()
            _isGlobal = scopeAnalyst.isGlobal
            _name2useScope = scopeAnalyst.resolve_use_scope()
        except:
            cleanup(pid)
            localCleanup(output_path, [path_ugly, path_orig, \
                                       path_unugly, path_jsnice])
            return (js_file_path, None, 'ScopeAnalyst fail')
        
        
        no_renaming = []
        for _line_idx, line in enumerate(iBuilder_ugly.tokens):
            no_renaming.append(' '.join([t for (_tt,t) in line]) + "\n")
        
        with open(f2, 'w') as f_no_renaming:
            f_no_renaming.writelines(no_renaming)
        
        moses = MosesDecoder(ini_path=os.path.join(ini_path, \
                           'train.no_renaming', 'tuning', 'moses.ini'))
        (_moses_ok, translation, _err) = moses.run(f2)

        nc = processTranslation(translation, iBuilder_ugly, 
                       scopeAnalyst, lm_path, f2,
                       output_path, base_name, clear)
        if nc:
            candidates += nc
        
        
        # Simple renaming: disambiguate overloaded names using scope id
        basic_renaming = renameUsingScopeId(scopeAnalyst, iBuilder_ugly)
        with open(f3, 'w') as f_basic_renaming:
            f_basic_renaming.writelines(basic_renaming)
        
        moses = MosesDecoder(ini_path=os.path.join(ini_path, \
                           'train.basic_renaming', 'tuning', 'moses.ini'))
        (_moses_ok, translation, _err) = moses.run(f3)
        nc = processTranslation(translation, iBuilder_ugly, 
                       scopeAnalyst, lm_path, f3,
                       output_path, base_name, clear)
        if nc:
            candidates += nc
            
        
        # More complicated renaming: collect the context around  
        # each name (global variables, API calls, punctuation)
        # and build a hash of the concatenation.
        hash_renaming = renameUsingHashAllPrec(scopeAnalyst, 
                                               iBuilder_ugly,
                                               debug=False)
#         print hash_renaming
        with open(f4, 'w') as f_hash_renaming:
            f_hash_renaming.writelines(hash_renaming)
        
        moses = MosesDecoder(ini_path=os.path.join(ini_path, \
                           'train.hash_renaming', 'tuning', 'moses.ini'))
        (_moses_ok, translation, _err) = moses.run(f4)
        
        nc = processTranslation(translation, iBuilder_ugly, 
                       scopeAnalyst, lm_path, f4,
                       output_path, base_name, clear)
        if nc:
            candidates += nc
        
        hash_def_one_renaming = renameUsingHashDefLine(scopeAnalyst, 
                                                   iBuilder_ugly, 
                                                   twoLines=False,
                                                   debug=False)
        with open(f5, 'w') as f_hash_def_one_renaming:
            f_hash_def_one_renaming.writelines(hash_def_one_renaming)

        moses = MosesDecoder(ini_path=os.path.join(ini_path, \
                           'train.hash_def_one_renaming', 'tuning', 'moses.ini'))
        (_moses_ok, translation, _err) = moses.run(f5)
        
        nc = processTranslation(translation, iBuilder_ugly, 
                       scopeAnalyst, lm_path, f5,
                       output_path, base_name, clear)
        if nc:
            candidates += nc
            

        hash_def_two_renaming = renameUsingHashDefLine(scopeAnalyst, 
                                                   iBuilder_ugly, 
                                                   twoLines=True,
                                                   debug=False)
        with open(f6, 'w') as f_hash_def_two_renaming: 
            f_hash_def_two_renaming.writelines(hash_def_two_renaming)
        
        moses = MosesDecoder(ini_path=os.path.join(ini_path, \
                           'train.hash_def_two_renaming', 'tuning', 'moses.ini'))
        (_moses_ok, translation, _err) = moses.run(f6)
        
        nc = processTranslation(translation, iBuilder_ugly, 
                       scopeAnalyst, lm_path, f6,
                       output_path, base_name, clear)
        if nc:
            candidates += nc
            
        
        cleanup(pid)
        cleanupRenamed(pid)
        return (js_file_path, 'OK', candidates)


    except Exception, e:
        cleanup(pid)
        cleanupRenamed(pid)
        return (js_file_path, None, str(e).replace("\n", ""))
コード例 #2
0
ファイル: scopeAnalysis.py プロジェクト: renesugar/jsNaughty
def processFile(js_file_path):

    # Load in the minified file
    minified = open(js_file_path).read()

    # Create lexer
    lexer = get_lexer_for_filename(js_file_path)

    # Tokenize input and compute mappings between the different
    # indices used: (line, col), flat, (l,c) in token list
    indexBuilder = IndexBuilder(lex(minified, lexer))
    tokens = indexBuilder.tokens
    #    print 'RUNNING IndexBuilder:', len(tokens)>0

    # Compute scoping: name2scope is a dictionary where keys
    # are (name, start_index) tuples and values are scope identifiers.
    # Note: start_index is a flat (unidimensional) index,
    # not a (line_chr_idx, col_chr_idx) index.
    scopeAnalyst = ScopeAnalyst(js_file_path)
    name2defScope = scopeAnalyst.resolve_scope()
    isGlobal = scopeAnalyst.isGlobal

    name2useScope = scopeAnalyst.name2useScope
    name2pth = scopeAnalyst.name2pth
    nameOrigin = scopeAnalyst.nameOrigin

    scopes = set(name2useScope.values())

    print
    print '=== FOUND %d SCOPES ===' % len(scopes)
    print

    for scope in scopes:
        print 'USE SCOPE:', scope
        lc_list = [
            indexBuilder.revTokMap[indexBuilder.revFlatMat[pos]]
            for (t, pos) in name2useScope.keys()
            if name2useScope[(t, pos)] == scope
        ]
        highlight(tokens, lc_list)
        print

    scopes = set(name2defScope.values())

    print
    print '=== FOUND %d NAME SCOPES ===' % len(scopes)
    print

    for scope in scopes:
        print 'DEF SCOPE:', scope
        lc_list = [
            indexBuilder.revTokMap[indexBuilder.revFlatMat[pos]]
            for (t, pos) in name2defScope.keys()
            if name2defScope[(t, pos)] == scope
        ]
        highlight(tokens, lc_list)
        print

    # Discover the path to the source map
    map_path = sourcemap.discover(minified)
    # Read and parse our sourcemap
    if map_path:
        sourcemapIndex = sourcemap.load(open(map_path))

    # Cluster names by scope
    nameScope2Positions = {}

    # Index data by (name,scope)
    for token, l in indexBuilder.name2CharPositions.iteritems():
        for (line, col) in sorted(l, key=lambda (a, b): (a, b)):
            pos = indexBuilder.flatMap[(line, col)]
            if name2defScope.has_key((token, pos)):
                scope = name2defScope[(token, pos)]
                use_scope = name2useScope[(token, pos)]
                pth = name2pth[(token, pos)]

                glb = isGlobal[(token, pos)]

                nameScope2Positions.setdefault((token, scope, glb), [])
                nameScope2Positions[(token, scope, glb)].append((line, col))

#                print token, pos
#                print 'def:', scope
#                print 'use:', use_scope
#                print 'pth:', pth
#                highlight(tokens, [indexBuilder.revTokMap[indexBuilder.revFlatMat[pos]]])
#                print

    print
    print

    for (token,scope,glb), positions in sorted(nameScope2Positions.iteritems(), \
                                           key=lambda (x,y):x[0]):

        pos = sorted(positions, key=lambda e: (e[0], e[1]))
        tt = []
        line_tok_idxs = set([])
        for (l, c) in pos:
            (tl, tc) = indexBuilder.revTokMap[(l, c)]
            line_tok_idxs.add(tl)
            p = indexBuilder.flatMap[(l, c)]
            if map_path:
                orig = sourcemapIndex.lookup(line=l, column=c).name
            else:
                orig = token
            print token, scope, (l, c), orig
            tt.append(((tl, tc), p, orig))
#             t.append(orig)

#         if token == 'n':
        print '\nNAME:', token.encode(
            'utf-8'), '( isGlobal =', glb, '; original =', orig, ')'
        #         print scope
        #         highlight(tokens, [indexBuilder.revTokMap[indexBuilder.revFlatMat[pos]]])

        for ((tli, tci), p, orig) in tt:
            scope = name2defScope[(token, p)]
            use_scope = name2useScope[(token, p)]
            pth = name2pth[(token, p)]
            origin = nameOrigin[(token, scope)]
#             print token #, p, origin
#             print
#             print 'def:', scope
#             print 'use:', use_scope
#             print 'pth:', pth
#             print

        for tl in sorted(set([tli for ((tli, tci), p, orig) in tt])):
            l = list(tokens[tl])
            for tc in [tci for ((tli, tci), p, orig) in tt if tli == tl]:
                l[tc] = (l[tc][0], unichr(0x2588) + token + unichr(0x2588))


#                 pos = indexBuilder.flatMap[(line,col)]

            print '  ', '%d:' % (tl + 1), ' '.join(
                [x[1].encode('utf-8') for x in l])

        print

    return