def end(self): if self.levels is None: self._rows = [['component']] f = self._open(self._outPath) f.write(list_to_aligned_text(self._rows).encode()) self._close(f)
def end(self): results = [] for n in self.branchOrder: bentry = self.branchDict[n] centry = bentry['components'] size = sum([e['size'] for e in centry]) usize = sum([e['uncompressed_size'] for e in centry]) cf = usize / size if size > 0 else 0 row = [] row.append(bentry['name']) if self.addType: row.append(bentry['type']) row.append(bentry['isarray']) row.append(bentry['countname']) if self.addSize: row.append(size) row.append(usize) row.append(cf) if self.addTitle: row.append(bentry['title']) results.append(row) columns = ['name'] if self.addType: columns.extend(['type', 'isarray', 'countname']) if self.addSize: columns.extend(['size', 'uncompressed_size', 'compression_factor']) if self.addTitle: columns.extend(['title']) if self.addSize and self.sortBySize: results = sorted( results, key=lambda x: float(itemgetter(columns.index('size'))(x)), reverse=True) results.insert(0, columns) format_dict = {} if self.addSize: format_dict.update({ 'size': '{:.6f}', 'uncompressed_size': '{:.6f}', 'compression_factor': '{:.2f}' }) left_align_last_column = False if self.addTitle: left_align_last_column = True f = self._open(self.outPath) f.write( list_to_aligned_text(results, format_dict, left_align_last_column)) self._close(f)
def end(self): if len(self._rows) == 1: return f = self._open(self._outPath) f.write(list_to_aligned_text(self._rows).encode()) self._close(f)
def end(self): mkdir_p(os.path.dirname(self.outPath)) with open(self.outPath, 'w') as f: f.write(list_to_aligned_text(self.rows))
def end(self): f = self._open(self.outPath) f.write(list_to_aligned_text(self._rows)) self._close(f)