# -*- coding: UTF-8 no BOM -*- import os,sys import numpy as np # ------------------------------------------------------------------ # python 3 has no unicode object, this ensures that the code works on Python 2&3 try: test=isinstance('test', unicode) except(NameError): unicode=str # ------------------------------------------------------------------ class ASCIItable(): """Read and write to ASCII tables""" __slots__ = ['__IO__', 'info', 'labeled', 'data', ] tmpext = '_tmp' # filename extension for in-place access # ------------------------------------------------------------------ def __init__(self, name = None, outname = None, buffered = False, # flush writes labeled = True, # assume table has labels readonly = False, # no reading from file ): self.__IO__ = {'output': [], 'buffered': buffered, 'labeled': labeled, # header contains labels 'tags': [], # labels according to file info 'readBuffer': [], # buffer to hold non-advancing reads 'dataStart': 0, } self.__IO__['inPlace'] = not outname and name and not readonly if self.__IO__['inPlace']: outname = name + self.tmpext # transparently create tmp file try: self.__IO__['in'] = (open( name,'r') if os.access( name, os.R_OK) else None) if name else sys.stdin except TypeError: self.__IO__['in'] = name try: self.__IO__['out'] = (open(outname,'w') if (not os.path.isfile(outname) or os.access( outname, os.W_OK) ) and (not self.__IO__['inPlace'] or not os.path.isfile(name) or os.access( name, os.W_OK) ) else None) if outname else sys.stdout except TypeError: self.__IO__['out'] = outname self.info = [] self.tags = [] self.data = [] self.line = '' if self.__IO__['in'] is None \ or self.__IO__['out'] is None: raise IOError # complain if any required file access not possible # ------------------------------------------------------------------ def _transliterateToFloat(self, x): try: return float(x) except: return 0.0 # ------------------------------------------------------------------ def _removeCRLF(self, string): try: return string.replace('\n','').replace('\r','') except: return string # ------------------------------------------------------------------ def _quote(self, what): """Quote empty or white space-containing output""" import re return '{quote}{content}{quote}'.format( quote = ('"' if str(what)=='' or re.search(r"\s",str(what)) else ''), content = what) # ------------------------------------------------------------------ def close(self, dismiss = False): self.input_close() self.output_flush() self.output_close(dismiss) # ------------------------------------------------------------------ def input_close(self): try: if self.__IO__['in'] != sys.stdin: self.__IO__['in'].close() except: pass # ------------------------------------------------------------------ def output_write(self, what): """Aggregate a single row (string) or list of (possibly containing further lists of) rows into output""" if not isinstance(what, (str, unicode)): try: for item in what: self.output_write(item) except: self.__IO__['output'] += [str(what)] else: self.__IO__['output'] += [what] return self.__IO__['buffered'] or self.output_flush() # ------------------------------------------------------------------ def output_flush(self, clear = True): try: self.__IO__['output'] == [] or self.__IO__['out'].write('\n'.join(self.__IO__['output']) + '\n') except IOError: return False if clear: self.output_clear() return True # ------------------------------------------------------------------ def output_clear(self): self.__IO__['output'] = [] # ------------------------------------------------------------------ def output_close(self, dismiss = False): try: if self.__IO__['out'] != sys.stdout: self.__IO__['out'].close() except: pass if dismiss and os.path.isfile(self.__IO__['out'].name): os.remove(self.__IO__['out'].name) elif self.__IO__['inPlace']: os.rename(self.__IO__['out'].name, self.__IO__['out'].name[:-len(self.tmpext)]) # ------------------------------------------------------------------ def head_read(self): """ Get column labels by either reading the first row or, if keyword "head[*]" is present, the last line of the header """ import re,shlex try: self.__IO__['in'].seek(0) except: pass firstline = self.__IO__['in'].readline().strip() m = re.search('(\d+)\s+head', firstline.lower()) # search for "head" keyword if m: # proper ASCIItable format if self.__IO__['labeled']: # table features labels self.info = [self.__IO__['in'].readline().strip() for i in range(1,int(m.group(1)))] self.tags = shlex.split(self.__IO__['in'].readline()) # store tags found in last line else: self.info = [self.__IO__['in'].readline().strip() for i in range(0,int(m.group(1)))] # all header is info ... else: # other table format try: self.__IO__['in'].seek(0) # try to rewind except: self.__IO__['readBuffer'] = [firstline] # or at least save data in buffer while self.data_read(advance = False, respectLabels = False): if self.line[0] in ['#','!','%','/','|','*','$']: # "typical" comment indicators self.info_append(self.line) # store comment as info self.data_read() # wind forward one line else: break # last line of comments if self.__IO__['labeled']: # table features labels self.tags = self.data # get tags from last line in "header"... self.data_read() # ...and remove from buffer if self.__IO__['labeled']: # table features tags self.__IO__['tags'] = list(self.tags) # backup tags (make COPY, not link) try: self.__IO__['dataStart'] = self.__IO__['in'].tell() # current file position is at start of data except IOError: pass # ------------------------------------------------------------------ def head_write(self, header = True): """Write current header information (info + labels)""" head = ['{}\theader'.format(len(self.info)+self.__IO__['labeled'])] if header else [] head.append(self.info) if self.__IO__['labeled']: head.append('\t'.join(map(self._quote,self.tags))) return self.output_write(head) # ------------------------------------------------------------------ def head_getGeom(self): """Interpret geom header""" identifiers = { 'grid': ['a','b','c'], 'size': ['x','y','z'], 'origin': ['x','y','z'], } mappings = { 'grid': lambda x: int(x), 'size': lambda x: float(x), 'origin': lambda x: float(x), 'homogenization': lambda x: int(x), 'microstructures': lambda x: int(x), } info = { 'grid': np.zeros(3,'i'), 'size': np.zeros(3,'d'), 'origin': np.zeros(3,'d'), 'homogenization': 0, 'microstructures': 0, } extra_header = [] for header in self.info: headitems = list(map(str.lower,header.split())) if len(headitems) == 0: continue # skip blank lines if headitems[0] in list(mappings.keys()): if headitems[0] in list(identifiers.keys()): for i in range(len(identifiers[headitems[0]])): info[headitems[0]][i] = \ mappings[headitems[0]](headitems[headitems.index(identifiers[headitems[0]][i])+1]) else: info[headitems[0]] = mappings[headitems[0]](headitems[1]) else: extra_header.append(header) return info,extra_header # ------------------------------------------------------------------ def head_putGeom(self,info): """Translate geometry description to header""" self.info_append([ "grid\ta {}\tb {}\tc {}".format(*info['grid']), "size\tx {}\ty {}\tz {}".format(*info['size']), "origin\tx {}\ty {}\tz {}".format(*info['origin']), "homogenization\t{}".format(info['homogenization']), "microstructures\t{}".format(info['microstructures']), ]) # ------------------------------------------------------------------ def labels_append(self, what, reset = False): """Add item or list to existing set of labels (and switch on labeling)""" if not isinstance(what, (str, unicode)): try: for item in what: self.labels_append(item) except: self.tags += [self._removeCRLF(str(what))] else: self.tags += [self._removeCRLF(what)] self.__IO__['labeled'] = True # switch on processing (in particular writing) of tags if reset: self.__IO__['tags'] = list(self.tags) # subsequent data_read uses current tags as data size # ------------------------------------------------------------------ def labels_clear(self): """Delete existing labels and switch to no labeling""" self.tags = [] self.__IO__['labeled'] = False # ------------------------------------------------------------------ def labels(self, tags = None, raw = False): """ Tell abstract labels. "x" for "1_x","2_x",... unless raw output is requested. operates on object tags or given list. """ from collections import Iterable if tags is None: tags = self.tags if isinstance(tags, Iterable) and not raw: # check whether list of tags is requested id = 0 dim = 1 labelList = [] while id < len(tags): if not tags[id].startswith('1_'): labelList.append(tags[id]) else: label = tags[id][2:] # get label while id < len(tags) and tags[id] == '{}_{}'.format(dim,label): # check successors id += 1 # next label... dim += 1 # ...should be one higher dimension labelList.append(label) # reached end --> store id -= 1 # rewind one to consider again id += 1 dim = 1 else: labelList = self.tags return labelList # ------------------------------------------------------------------ def label_index(self, labels): """ Tell index of column label(s). return numpy array if asked for list of labels. transparently deals with label positions implicitly given as numbers or their headings given as strings. """ from collections import Iterable if isinstance(labels, Iterable) and not isinstance(labels, str): # check whether list of labels is requested idx = [] for label in labels: if label is not None: try: idx.append(int(label)-1) # column given as integer number? except ValueError: label = label[1:-1] if label[0] == label[-1] and label[0] in ('"',"'") else label # remove outermost quotations try: idx.append(self.tags.index(label)) # locate string in label list except ValueError: try: idx.append(self.tags.index('1_'+label)) # locate '1_'+string in label list except ValueError: idx.append(-1) # not found... else: try: idx = int(labels)-1 # offset for python array indexing except ValueError: try: labels = labels[1:-1] if labels[0] == labels[-1] and labels[0] in ('"',"'") else labels # remove outermost quotations idx = self.tags.index(labels) except ValueError: try: idx = self.tags.index('1_'+labels) # locate '1_'+string in label list except ValueError: idx = None if labels is None else -1 return np.array(idx) if isinstance(idx,Iterable) else idx # ------------------------------------------------------------------ def label_dimension(self, labels): """ Tell dimension (length) of column label(s). return numpy array if asked for list of labels. transparently deals with label positions implicitly given as numbers or their headings given as strings. """ from collections import Iterable if isinstance(labels, Iterable) and not isinstance(labels, str): # check whether list of labels is requested dim = [] for label in labels: if label is not None: myDim = -1 try: # column given as number? idx = int(label)-1 myDim = 1 # if found has at least dimension 1 if self.tags[idx].startswith('1_'): # column has multidim indicator? while idx+myDim < len(self.tags) and self.tags[idx+myDim].startswith("%i_"%(myDim+1)): myDim += 1 # add while found except ValueError: # column has string label label = label[1:-1] if label[0] == label[-1] and label[0] in ('"',"'") else label # remove outermost quotations if label in self.tags: # can be directly found? myDim = 1 # scalar by definition elif '1_'+label in self.tags: # look for first entry of possible multidim object idx = self.tags.index('1_'+label) # get starting column myDim = 1 # (at least) one-dimensional while idx+myDim < len(self.tags) and self.tags[idx+myDim].startswith("%i_"%(myDim+1)): myDim += 1 # keep adding while going through object dim.append(myDim) else: dim = -1 # assume invalid label idx = -1 try: # column given as number? idx = int(labels)-1 dim = 1 # if found has at least dimension 1 if self.tags[idx].startswith('1_'): # column has multidim indicator? while idx+dim < len(self.tags) and self.tags[idx+dim].startswith("%i_"%(dim+1)): dim += 1 # add as long as found except ValueError: # column has string label labels = labels[1:-1] if labels[0] == labels[-1] and labels[0] in ('"',"'") else labels # remove outermost quotations if labels in self.tags: # can be directly found? dim = 1 # scalar by definition elif '1_'+labels in self.tags: # look for first entry of possible multidim object idx = self.tags.index('1_'+labels) # get starting column dim = 1 # is (at least) one-dimensional while idx+dim < len(self.tags) and self.tags[idx+dim].startswith("%i_"%(dim+1)): dim += 1 # keep adding while going through object return np.array(dim) if isinstance(dim,Iterable) else dim # ------------------------------------------------------------------ def label_indexrange(self, labels): """ Tell index range for given label(s). return numpy array if asked for list of labels. transparently deals with label positions implicitly given as numbers or their headings given as strings. """ from collections import Iterable start = self.label_index(labels) dim = self.label_dimension(labels) return np.hstack([range(c[0],c[0]+c[1]) for c in zip(start,dim)]) \ if isinstance(labels, Iterable) and not isinstance(labels, str) \ else range(start,start+dim) # ------------------------------------------------------------------ def info_append(self, what): """Add item or list to existing set of infos""" if not isinstance(what, (str, unicode)): try: for item in what: self.info_append(item) except: self.info += [self._removeCRLF(str(what))] else: self.info += [self._removeCRLF(what)] # ------------------------------------------------------------------ def info_clear(self): """Delete any info block""" self.info = [] # ------------------------------------------------------------------ def data_rewind(self): self.__IO__['in'].seek(self.__IO__['dataStart']) # position file to start of data section self.__IO__['readBuffer'] = [] # delete any non-advancing data reads self.tags = list(self.__IO__['tags']) # restore label info found in header (as COPY, not link) self.__IO__['labeled'] = len(self.tags) > 0 # ------------------------------------------------------------------ def data_skipLines(self, count): """Wind forward by count number of lines""" for i in range(count): alive = self.data_read() return alive # ------------------------------------------------------------------ def data_read(self, advance = True, respectLabels = True): """Read next line (possibly buffered) and parse it into data array""" import shlex self.line = self.__IO__['readBuffer'].pop(0) if len(self.__IO__['readBuffer']) > 0 \ else self.__IO__['in'].readline().strip() # take buffered content or get next data row from file if not advance: self.__IO__['readBuffer'].append(self.line) # keep line just read in buffer self.line = self.line.rstrip('\n') if self.__IO__['labeled'] and respectLabels: # if table has labels items = shlex.split(self.line)[:len(self.__IO__['tags'])] # use up to label count (from original file info) self.data = items if len(items) == len(self.__IO__['tags']) else [] # take entries if label count matches else: self.data = shlex.split(self.line) # otherwise take all return self.data != [] # ------------------------------------------------------------------ def data_readArray(self, labels = []): """Read whole data of all (given) labels as numpy array""" from collections import Iterable try: self.data_rewind() # try to wind back to start of data except: pass # assume/hope we are at data start already... if labels is None or labels == []: use = None # use all columns (and keep labels intact) labels_missing = [] else: if isinstance(labels, str) or not isinstance(labels, Iterable): # check whether labels are a list or single item labels = [labels] indices = self.label_index(labels) # check requested labels ... dimensions = self.label_dimension(labels) # ... and remember their dimension present = np.where(indices >= 0)[0] # positions in request list of labels that are present ... missing = np.where(indices < 0)[0] # ... and missing in table labels_missing = np.array(labels)[missing] # labels of missing data columns = [] for i,(c,d) in enumerate(zip(indices[present],dimensions[present])): # for all valid labels ... # ... transparently add all components unless column referenced by number or with explicit dimension columns += list(range(c,c + \ (d if str(c) != str(labels[present[i]]) else \ 1))) use = np.array(columns) if len(columns) > 0 else None self.tags = list(np.array(self.tags)[use]) # update labels with valid subset self.data = np.loadtxt(self.__IO__['in'],usecols=use,ndmin=2) return labels_missing # ------------------------------------------------------------------ def data_write(self, delimiter = '\t'): """Write current data array and report alive output back""" if len(self.data) == 0: return True if isinstance(self.data[0],list): return self.output_write([delimiter.join(map(self._quote,items)) for items in self.data]) else: return self.output_write( delimiter.join(map(self._quote,self.data))) # ------------------------------------------------------------------ def data_writeArray(self, fmt = None, delimiter = '\t'): """Write whole numpy array data""" for row in self.data: try: output = [fmt % value for value in row] if fmt else list(map(repr,row)) except: output = [fmt % row] if fmt else [repr(row)] self.__IO__['out'].write(delimiter.join(output) + '\n') # ------------------------------------------------------------------ def data_append(self, what): if not isinstance(what, (str, unicode)): try: for item in what: self.data_append(item) except: self.data += [str(what)] else: self.data += [what] # ------------------------------------------------------------------ def data_set(self, what, where): """Update data entry in column "where". grows data array if needed.""" idx = -1 try: idx = self.label_index(where) if len(self.data) <= idx: self.data_append(['n/a' for i in range(idx+1-len(self.data))]) # grow data if too short self.data[idx] = str(what) except(ValueError): pass return idx # ------------------------------------------------------------------ def data_clear(self): self.data = [] # ------------------------------------------------------------------ def data_asFloat(self): return list(map(self._transliterateToFloat,self.data)) # ------------------------------------------------------------------ def microstructure_read(self, grid, type = 'i', strict = False): """Read microstructure data (from .geom format)""" def datatype(item): return int(item) if type.lower() == 'i' else float(item) N = grid.prod() # expected number of microstructure indices in data microstructure = np.zeros(N,type) # initialize as flat array i = 0 while i < N and self.data_read(): items = self.data if len(items) > 2: if items[1].lower() == 'of': items = np.ones(datatype(items[0]))*datatype(items[2]) elif items[1].lower() == 'to': items = np.arange(datatype(items[0]),1+datatype(items[2])) else: items = list(map(datatype,items)) else: items = list(map(datatype,items)) s = min(len(items), N-i) # prevent overflow of microstructure array microstructure[i:i+s] = items[:s] i += len(items) return (microstructure, i == N and not self.data_read()) if strict else microstructure # check for proper point count and end of file