Mercurial > repos > melissacline > ucsc_cancer_utilities
view seg2matrix/CGData/__init__.py @ 32:8e888e966c47
change segToMatrix.xml location
author | jingchunzhu |
---|---|
date | Fri, 24 Jul 2015 14:09:57 -0700 |
parents | ab20c0d04f4a |
children |
line wrap: on
line source
import os import re import json import functools from zipfile import ZipFile import sys import hashlib """ CGData object style: Every file type documented in the CGData specification has an equivilent object to parse and manipulate the contents of that file type. For <dataType> there should be a CGData.<dataType> object with a <CGData> class. These classes should extend the baseObject class. For loading they implement the 'read' function which will parse the contents of a file from a passed file handle. """ OBJECT_MAP = { 'genomicSegment': ('CGData.GenomicSegment', 'GenomicSegment'), 'genomicMatrix': ('CGData.GenomicMatrix', 'GenomicMatrix'), 'probeMap': ('CGData.ProbeMap', 'ProbeMap'), 'probeLoc': ('CGData.ProbeLoc', 'ProbeLoc'), 'aliasMap' : ('CGData.AliasMap', 'AliasMap'), 'idDAG': ('CGData.IDDag', 'IDDag'), 'clinicalMatrix': ('CGData.ClinicalMatrix', 'ClinicalMatrix'), 'dataSubType': ('CGData.DataSubType', 'DataSubType'), 'assembly': ('CGData.Assembly', 'Assembly'), 'featureDescription': ('CGData.FeatureDescription', 'FeatureDescription'), 'refGene' : ('CGData.RefGene', 'RefGene'), 'idList' : ('CGData.IDList', 'IDList') } class FormatException(Exception): def __init__(self, str): Exception.__init__(self, str) def has_type(type_str): return type_str in OBJECT_MAP def get_type(type_str): mod_name, cls_name = OBJECT_MAP[type_str] module = __import__(mod_name, globals(), locals(), [ cls_name ]) cls = getattr(module, cls_name) return cls class UnimplementedException(Exception): def __init__(self, str="Method not implemented"): Exception.__init__(self, str) class CGObjectBase(dict): """ This is the base object for CGData loadable objects. The methods covered in the base case cover usage meta-information loading/unloading and manipulation as well as zip (cgz) file access. """ __format__ = None def __init__(self): self.path = None self.zip = None self.light_mode = False self.loaded = False if 'cgformat' not in self and self.__format__ is not None: self['cgformat'] = self.__format__ super(CGObjectBase,self).__init__() def load(self, path=None, **kw): """ Load a data object in from path """ if path is None and self.path is not None: path = self.path if path is None: raise OSError( "Path not defined" ) if self.zip is None: if os.path.exists(path): dhandle = open(path,'rU') self.read(dhandle, **kw) dhandle.close() else: z = ZipFile(self.zip) dhandle = z.open(self.path, 'rU') self.read(dhandle, **kw) dhandle.close() z.close() self.path = path if (os.path.exists(path + ".json")): mhandle = open(path + ".json",'rU') meta = json.loads(mhandle.read()) meta = dict((k, v) for k, v in meta.iteritems() if v != None) self.update(meta) mhandle.close() self.loaded = True def unload(self): """Call to start freeing up memory""" self.free() self.loaded = False def store(self, path=None): """ Store an object onto the path provided. Will write a path and a path.json file. """ if path is None and self.path is not None: path = self.path if path is None: raise OSError( "Path not defined" ) meta = {} meta.update(self) if 'cgformat' in meta: del meta['cgformat'] mHandle = open(path + ".json", "w") mHandle.write(json.dumps(meta)) mHandle.close() if not self.light_mode: self.path = path dhandle = open(path, "w") self.write(dhandle) dhandle.close() def load_keyset(self, key_predicate): if self.path is not None: if self.zip is None: if os.path.exists(self.path): dhandle = open(self.path, 'rU') out = self.read_keyset(dhandle, key_predicate) for a in out: yield a dhandle.close() else: z = ZipFile(self.zip) dhandle = z.open(self.path, 'rU') out = self.read_keyset(dhandle, key_predicate) for a in out: yield a dhandle.close() z.close() def read_keyset(self, handle, key_predicate=None): raise UnimplementedException() def read(self, handle): """ The read method is implemented by the subclass that inherits from CGObjectBase. It is passed a handle to a file (which may be on file, in a compressed object, or from a network source). The implementing class then uses his handle to populate it's data structures. """ raise UnimplementedException() def write(self, handle): """ The write method is implemented by the subclass that inherits from CGObjectBase. It is passed a handle to an output file, which it can use 'write' method calls to emit it's data. """ raise UnimplementedException() def get_name(self): """ Get object name """ return self.get( 'cgdata', {} ).get( 'name', None ) def get_type(self): """ Get object type """ return self.get('cgdata', {}).get('type', None) def get_link_map(self): """ Get a dict that represents the declared file relationships from the meta-info """ out = {} if "cgformat" in self: if "links" in self["cgformat"]: for field in self['cgformat']['links']: if field in self['cgdata']: if isinstance(self['cgdata'][field], str) or isinstance(self['cgdata'][field], unicode) : out[field] = { 'type' : field, 'name' : self['cgdata'][field] } else: out[field] = { 'type' : self['cgdata'][field]['type'], 'name' : self['cgdata'][field]['name'] } for e in ['columnKeySrc', 'rowKeySrc' ]: if e in self['cgdata']: if e not in out: out[e] = {} link = self['cgdata'][e] out[e] = { 'type' : link['type'], 'name' : link['name'] } return out def add_history(self, desc): if not 'history' in self: self[ 'history' ] = [] self[ 'history' ].append( desc ) class CGDataMatrixObject(CGObjectBase): def __init__(self): CGObjectBase.__init__(self) def get_col_namespace(self): """ Return the name of the column namespace """ raise UnimplementedException() def get_row_namespace(self): """ Return the name of the row namespace """ raise UnimplementedException() def get_col_list(self): """ Returns names of columns """ raise UnimplementedException() def get_row_list(self): """ Returns names of rows """ raise UnimplementedException() def get_row_map(self): """ Returns map of row name indexes """ raise UnimplementedException() def get_col_map(self): """ Returns map of row name indexes """ raise UnimplementedException() def get_row_pos(self, row): raise UnimplementedException() def get_col_pos(self, col): raise UnimplementedException() def get_row_count(self): raise UnimplementedException() def get_col_count(self): raise UnimplementedException() def get_row(self, row_name): raise UnimplementedException() def get_col(self, col_name): raise UnimplementedException() def cg_new(type_str): """ cg_new takes a type string and creates a new object from the class named, it uses an internally defined map to find all official CGData data types. So if a 'genomicMatrix' is requested a CGData.GenomicMatrix.GenomicMatrix is initialized. type_str -- A string name of a CGData type, ie 'genomicMatrix' """ mod_name, cls_name = OBJECT_MAP[type_str] module = __import__(mod_name, globals(), locals(), [ cls_name ]) cls = getattr(module, cls_name) out = cls() return out def load(path, zip=None): """ load is a the automatic CGData loading function. There has to be a '.json' file for this function to work. It inspects the '.json' file and uses the 'type' field to determine the appropriate object loader to use. The object is created (using the cg_new function) and the 'read' method is passed a handle to the data file. If the 'zip' parameter is not None, then it is used as the path to a zipfile, and the path parameter is used as an path inside the zip file to the object data path -- path to file (in file system space if zip is None, otherwise it is the location in the zip file) zip -- path to zip file (None by default) """ if not path.endswith(".json"): path = path + ".json" data_path = re.sub(r'.json$', '', path) try: handle = open(path, 'rU') meta = json.loads(handle.read()) except IOError: raise FormatException("Meta-info (%s) file not found" % (path)) # Throw away empty values meta = dict((k, v) for k, v in meta.iteritems() if v != None) if meta['cgdata']['type'] in OBJECT_MAP: out = cg_new(meta['cgdata']['type']) out.update( meta ) out.path = data_path out.load(data_path) return out else: raise FormatException("%s class not found" % (meta['cgdata']['type'])) def light_load(path, zip=None): if not path.endswith(".json"): path = path + ".json" data_path = re.sub(r'.json$', '', path) if zip is None: try: handle = open(path, 'rU') meta = json.loads(handle.read()) except IOError: raise FormatException("Meta-info (%s) file not found" % (path)) else: z = ZipFile(zip) handle = z.open(path,'rU') meta = json.loads(handle.read()) handle.close() z.close() # Throw away empty values meta = dict((k, v) for k, v in meta.iteritems() if v != None) if meta['cgdata']['type'] in OBJECT_MAP: out = cg_new(meta['cgdata']['type']) out.update( meta ) out.path = data_path out.zip = zip out.light_mode = True return out else: raise FormatException("%s class not found" % (meta['cgdata']['type'])) global LOG_LEVEL LOG_LEVEL = 2 def info(eStr): if LOG_LEVEL < 2: sys.stderr.write("LOG: %s\n" % (eStr)) #errorLogHandle.write("LOG: %s\n" % (eStr)) def debug(eStr): if LOG_LEVEL < 1: sys.stderr.write("DEBUG: %s\n" % (eStr)) #errorLogHandle.write("LOG: %s\n" % (eStr)) def warn(eStr): if LOG_LEVEL < 3: sys.stderr.write("WARNING: %s\n" % (eStr)) #errorLogHandle.write("WARNING: %s\n" % (eStr)) def error(eStr): sys.stderr.write("ERROR: %s\n" % (eStr)) #errorLogHandle.write("ERROR: %s\n" % (eStr))