import os.path, sys, shutil, hashlib, cPickle, zlib, time import tempfiles # Permanent cache for dlmalloc and stdlibc++ class Cache: def __init__(self, dirname=None, debug=False): if dirname is None: dirname = os.environ.get('EM_CACHE') if not dirname: dirname = os.path.expanduser(os.path.join('~', '.emscripten_cache')) self.dirname = dirname self.debug = debug def ensure(self): if not os.path.exists(self.dirname): os.makedirs(self.dirname) def erase(self): tempfiles.try_delete(self.dirname) try: open(self.dirname + '__last_clear', 'w').write('last clear: ' + time.asctime() + '\n') except Exception, e: print >> sys.stderr, 'failed to save last clear time: ', e def get_path(self, shortname): return os.path.join(self.dirname, shortname) # Request a cached file. If it isn't in the cache, it will be created with # the given creator function def get(self, shortname, creator, extension='.bc'): if not shortname.endswith(extension): shortname += extension cachename = os.path.join(self.dirname, shortname) if os.path.exists(cachename): return cachename self.ensure() shutil.copyfile(creator(), cachename) return cachename # JS-specific cache. We cache the results of compilation and optimization, # so that in incremental builds we can just load from cache. # We cache reasonably-large-sized chunks class JCache: def __init__(self, cache): self.cache = cache self.dirname = os.path.join(cache.dirname, 'jcache') self.debug = cache.debug def ensure(self): self.cache.ensure() if not os.path.exists(self.dirname): try: os.makedirs(self.dirname) except (IOError, OSError): pass def get_shortkey(self, keys): if type(keys) not in [list, tuple]: keys = [keys] ret = '' for key in keys: assert type(key) == str ret += hashlib.md5(key).hexdigest() return ret def get_cachename(self, shortkey): return os.path.join(self.dirname, shortkey) # Returns a cached value, if it exists. Make sure the full key matches def get(self, shortkey, keys): if self.debug: print >> sys.stderr, 'jcache get?', shortkey cachename = self.get_cachename(shortkey) if not os.path.exists(cachename): if self.debug: print >> sys.stderr, 'jcache none at all' return try: data = cPickle.loads(zlib.decompress(open(cachename).read())) except Exception, e: if self.debug: print >> sys.stderr, 'jcache decompress/unpickle error:', e return if len(data) != 2: if self.debug: print >> sys.stderr, 'jcache error in get' return oldkeys = data[0] if len(oldkeys) != len(keys): if self.debug: print >> sys.stderr, 'jcache collision (a)' return for i in range(len(oldkeys)): if oldkeys[i] != keys[i]: if self.debug: print >> sys.stderr, 'jcache collision (b)' return if self.debug: print >> sys.stderr, 'jcache win' return data[1] # Sets the cached value for a key (from get_key) def set(self, shortkey, keys, value): cachename = self.get_cachename(shortkey) try: f = open(cachename, 'w') f.write(zlib.compress(cPickle.dumps([keys, value]))) f.close() except Exception, e: if self.debug: print >> sys.stderr, 'jcache compress/pickle error:', e return # for i in range(len(keys)): # open(cachename + '.key' + str(i), 'w').write(keys[i]) # open(cachename + '.value', 'w').write(value) # Given a set of functions of form (ident, text), and a preferred chunk size, # generates a set of chunks for parallel processing and caching. # It is very important to generate similar chunks in incremental builds, in # order to maximize the chance of cache hits. To achieve that, we save the # chunking used in the previous compilation of this phase, and we try to # generate the same chunks, barring big differences in function sizes that # violate our chunk size guideline. If caching is not used, chunking_file # should be None def chunkify(funcs, chunk_size, chunking_file, DEBUG=False): previous_mapping = None if chunking_file: chunking_file = chunking_file if os.path.exists(chunking_file): try: previous_mapping = cPickle.Unpickler(open(chunking_file, 'rb')).load() # maps a function identifier to the chunk number it will be in #if DEBUG: print >> sys.stderr, 'jscache previous mapping', previous_mapping except: pass chunks = [] if previous_mapping: # initialize with previous chunking news = [] for func in funcs: ident, data = func assert ident, 'need names for jcache chunking' if not ident in previous_mapping: news.append(func) else: n = previous_mapping[ident] while n >= len(chunks): chunks.append([]) chunks[n].append(func) if DEBUG: print >> sys.stderr, 'jscache not in previous chunking', len(news) # add news and adjust for new sizes spilled = news for i in range(len(chunks)): chunk = chunks[i] size = sum([len(func[1]) for func in chunk]) #if DEBUG: print >> sys.stderr, 'need spilling?', i, size, len(chunk), 'vs', chunk_size, 1.5*chunk_size while size > 1.5*chunk_size and len(chunk) > 1: spill = chunk.pop() spilled.append(spill) size -= len(spill[1]) #if DEBUG: print >> sys.stderr, 'jscache new + spilled', len(spilled) for chunk in chunks: size = sum([len(func[1]) for func in chunk]) while size < 0.66*chunk_size and len(spilled) > 0: spill = spilled.pop() chunk.append(spill) size += len(spill[1]) chunks = filter(lambda chunk: len(chunk) > 0, chunks) # might have empty ones, eliminate them funcs = spilled # we will allocate these into chunks as if they were normal inputs #if DEBUG: print >> sys.stderr, 'leftover spills', len(spilled) # initialize reasonably, the rest of the funcs we need to split out curr = [] total_size = 0 for i in range(len(funcs)): func = funcs[i] curr_size = len(func[1]) if total_size + curr_size < chunk_size: curr.append(func) total_size += curr_size else: chunks.append(curr) curr = [func] total_size = curr_size if curr: chunks.append(curr) curr = None if chunking_file: # sort within each chunk, to keep the order identical for chunk in chunks: chunk.sort(key=lambda func: func[0]) # save new mapping info new_mapping = {} for i in range(len(chunks)): chunk = chunks[i] for ident, data in chunk: assert ident not in new_mapping, 'cannot have duplicate names in jcache chunking' new_mapping[ident] = i cPickle.Pickler(open(chunking_file, 'wb')).dump(new_mapping) #if DEBUG: # for i in range(len(chunks)): # chunk = chunks[i] # print >> sys.stderr, 'final chunk', i, len(chunk) # print >> sys.stderr, 'new mapping:', new_mapping # if previous_mapping: # for ident in set(previous_mapping.keys() + new_mapping.keys()): # if previous_mapping.get(ident) != new_mapping.get(ident): # print >> sys.stderr, 'mapping inconsistency', ident, previous_mapping.get(ident), new_mapping.get(ident) return [''.join([func[1] for func in chunk]) for chunk in chunks] # remove function names