Mercurial > repos > devteam > column_maker
view column_maker.py @ 9:6595517c2dd8 draft default tip
planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/column_maker commit fe76077775aaca531f6a563fdfcbd73fbf1528e7
| author | iuc |
|---|---|
| date | Thu, 28 Jul 2022 15:28:30 +0000 |
| parents | 02026300aa45 |
| children |
line wrap: on
line source
#!/usr/bin/env python """ This tool takes a tab-delimited textfile as input and creates new columns in the file which are the result of a computation performed on every row in the original file. The tool will skip over empty and comment (starting with a #) lines within the file. It does not change the formatting of any original, retained columns. """ import argparse import enum import re import sys # Functions that may be used in the compute expression from math import ( # noqa: F401 ceil, exp, floor, log, log10, sqrt, ) from numpy import format_float_positional class Mode(enum.Enum): APPEND = '' INSERT = 'I' REPLACE = 'R' def from_str(s, to_type): if to_type is list: return [part.strip(' ') for part in s.split(',')] else: return to_type(s) def to_str(obj): if type(obj) is list: return ','.join([to_str(i) for i in obj]) if args.avoid_scientific_notation and type(obj) is float: return format_float_positional(obj) return str(obj) parser = argparse.ArgumentParser() parser.add_argument('input', type=str, help='input file') parser.add_argument('output', type=str, help='output file') parser.add_argument( '-t', '--column-types', nargs='?', required=True, help='A comma-separated list of column types in the input file' ) parser.add_argument( '--avoid-scientific-notation', action='store_true', help='avoid scientific notation' ) parser.add_argument( '--header', action='store_true', help='The input has a header line with column names. ' 'Actions must specify names of newly calculated columns.' ) parser.add_argument( '--fail-on-non-existent-columns', action='store_true', help='If an action references a column number that is not existent ' 'when the expression gets computed, the default behavior is to treat ' 'this as a case of rows for which the expression cannot be computed. ' 'The behavior of the tool will then depend on which of the ' 'non-computable switches is in effect. With this flag, in contrast, ' 'the tool will fail directly upon encountering a non-existing column.' ) non_computable = parser.add_mutually_exclusive_group() non_computable.add_argument('--fail-on-non-computable', action='store_true') non_computable.add_argument('--skip-non-computable', action='store_true') non_computable.add_argument('--keep-non-computable', action='store_true') non_computable.add_argument('--non-computable-blank', action='store_true') non_computable.add_argument('--non-computable-default') group = parser.add_mutually_exclusive_group(required=True) group.add_argument( '-a', '--actions', nargs='*', type=str, help='One or more action(s) of the format EXPR;[COL_ADD_SPEC];[COL_NAME]' ) group.add_argument( '-f', '--file', type=str, help='File to read actions from (mutually exclusive with -a)' ) args = parser.parse_args() if not args.column_types: with open(args.input) as fh: if not fh.readline(): # Generally, the input must have at least one column to be # considered tabular, but empty files are ok and should produce # empty output. with open(args.output, 'w') as out: pass sys.exit() sys.exit( "Missing column types. " "In Galaxy, click the pencil icon on the history item and " "select the Auto-detect option to correct it. " "This tool can only be used with tab-delimited data." ) in_column_types = [t.strip() for t in args.column_types.split(',')] in_columns = len(in_column_types) # Prepare initial column variable names and type cast representations # for column data types cols, type_casts = [], [] for n, col_type in enumerate(in_column_types, start=1): col_name = "c%d" % n cols.append(col_name) col_str = ', '.join(cols) # 'c1, c2, c3, c4' # Define lambda for type-casting of original row fields try: cast_types = eval( 'lambda fields: [from_str(s, t) for s, t in zip(fields, [%s])]' % args.column_types ) except Exception as e: sys.exit( 'While parsing column types, the following problem occured: "%s"' % e ) # Get and parse actions if args.file: actions = [] with open(args.file) as i: for line in i: line = line.strip() if line: actions.append(line) else: actions = args.actions # each action must be a full data row manipulation instruction of the form: # EXPR;[COL_ADD_SPEC];[COL_NAME] # where EXPR is the actual expression to compute on the row, # COL_ADD_SPEC consists of a column index and a mode identifier for how the # new column should be added. # Examples: 3I (insert new col before current column 3), # 2R (replace current column 2 with new column); # a missing COL_ADD_SPEC is interpreted as mode A (append new column at the # end of the row). # COL_NAME is required with the --header option and specifies the name of the # new column; without --header, any COL_NAME gets ignored. operators = 'is|not|or|and' builtin_and_math_functions = ( 'abs|all|any|ascii|bin|bool|chr|complex|divmod|float|format|hex|int|len|' 'list|map|max|min|oct|ord|pow|range|reversed|round|set|sorted|str|sum|type|' 'log|log10|exp|sqrt|ceil|floor' ) imported_numpy_function = 'format_float_positional' string_and_list_methods = [ name for name in dir('') + dir([]) if not name.startswith('_') ] whitelist = r"^([c0-9\+\-\*\/\(\)\.\'\"><=,:! ]|%s|%s|%s|%s)*$" % ( operators, builtin_and_math_functions, imported_numpy_function, '|'.join(string_and_list_methods) ) valid_pat = re.compile(whitelist) ops = [] num_cols = in_columns for ac in actions: try: expr_string, col_add_spec, new_col_name = ac.split(';') except ValueError: sys.exit( 'Invalid Action: "%s". ' 'Required format: EXPR;[COL_ADD_SPEC];[COL_NAME]' % ac ) if not valid_pat.match(expr_string): sys.exit('Invalid expression: "%s"' % expr_string) try: expr_lambda = eval('lambda %s: %s' % (col_str, expr_string)) except Exception as e: if str(e).startswith('invalid syntax'): sys.exit( 'Expression "%s" caused a syntax error during parsing.' % expr_string ) else: sys.exit( 'While parsing expression "%s" the following problem occured: ' '"%s"' % (expr_string, str(e)) ) try: new_col_idx = int(col_add_spec[:-1] or '0') - 1 except ValueError: sys.exit( 'COL_ADD_SPECS need to start with a (1-based) column index. ' 'Could not parse a column index from "%s"' % col_add_spec ) try: mode = Mode(col_add_spec[-1:]) except ValueError: sys.exit( 'COL_ADD_SPECS need to end in a single-character mode identifier ' '("I", or "R"), or be empty (for Append mode). ' 'Could not parse a valid identifier from "%s"' % col_add_spec ) if mode is Mode.REPLACE: if new_col_idx < 0 or new_col_idx >= num_cols: sys.exit( 'Cannot replace the contents of column %d as specified by ' 'action "%s". No such column at this point of the ' 'computation' % (new_col_idx + 1, ac) ) if not new_col_name and args.header: sys.exit( 'A name is required for any new columns when using an existing ' 'header line (--header option), but found none in action: ' '"%s"' % ac ) # Successfully parsed the instruction # Store the expression lambda, the index and name of the new column, and # the original string representation of the expression (for use in # potential later error messages). ops.append([expr_lambda, new_col_idx, mode, new_col_name, expr_string]) if mode is Mode.APPEND or mode is Mode.INSERT: # If the current expression results in an additional column, # we need to handle the new field in subsequent lambda functions. num_cols += 1 col_str += ', c%d' % num_cols # ready to start parsing the input file print( 'Computing %d new columns with instructions %s' % (num_cols - in_columns, actions) ) skipped_lines = 0 first_invalid_line = 0 invalid_line = None lines_computed = 0 total_lines = 0 non_existent_col_pat = re.compile(r"name 'c\d+' is not defined") with open(args.input, encoding='utf-8') as fh, \ open(args.output, 'w', encoding='utf-8') as out: if args.header: # compute new header line from original header_cols = fh.readline().strip('\n').split('\t') for _, col_idx, mode, col_name, _ in ops: if mode is Mode.INSERT: header_cols.insert(col_idx, col_name) elif mode is Mode.REPLACE: header_cols[col_idx] = col_name else: header_cols.append(col_name) out.write('\t'.join(header_cols) + '\n') # read data, skipping empty and comment lines, and perform computations # that will result in new columns for i, line in enumerate(fh): total_lines += 1 line = line.rstrip('\n') if not line or line.startswith('#'): skipped_lines += 1 if not invalid_line: first_invalid_line = i + 1 invalid_line = line continue fields = line.split('\t') if len(fields) == in_columns: try: typed_fields = cast_types(fields) except ValueError as e: sys.exit( 'Failed to convert some of the columns in line #%d to their ' 'expected types. The error was: "%s" for the line: "%s"' % (i, str(e), line) ) else: # A "suspicious" line with less or more fields than expected # Type-casting for it might fail or not, but it is pointless to # even try because subsequent computation of any expression will # fail anyway as expression lambdas expect a fixed number of # arguments. # Lets pass in a copy of the original string fields, let # the computation of the first expression fail, then have that # situation handled according to the non-computable settings in # effect. typed_fields = fields[:] for fun, col_idx, mode, col_name, ex in ops: try: try: new_val = fun(*typed_fields) except NameError as e: # Python 3.10+ would have the problematic name # available as e.name if non_existent_col_pat.fullmatch(str(e)) and ( not args.fail_on_non_existent_columns ): # Looks like a reference to a non-existent column # and we are not supposed to fail on it directly. # Reraise and have it handled as a non-computable # row. raise # NameErrors are not row-specific, but indicate a # general problem with the user-supplied expression. sys.exit( 'While parsing expression "%s" the following ' 'problem occured: "%s"' % (ex, str(e)) ) except Exception as e: if args.skip_non_computable: # log that a line got skipped, then stop computing # for this line skipped_lines += 1 if not invalid_line: first_invalid_line = i + 1 invalid_line = line break if args.keep_non_computable: # write the original line unchanged and stop computing # for this line out.write(line + '\n') break if args.non_computable_blank: new_val = '' elif args.non_computable_default is not None: new_val = args.non_computable_default else: # --fail_on_non_computable # (which is default behavior, too) sys.exit( 'Could not compute a new column value using "%s" on ' 'line #%d: "%s". Error was "%s"' % (ex, i, line, str(e)) ) if mode is Mode.INSERT: fields.insert(col_idx, new_val) typed_fields.insert(col_idx, new_val) elif mode is Mode.REPLACE: if col_idx > len(fields): # Intentionally allow "replacing" one column beyond # current fields since this can be used to fix # short lines in the input. sys.exit( 'Cannot replace column #%d in line with %d columns: ' '"%s"' % (col_idx + 1, len(fields), line) ) fields[col_idx:col_idx + 1] = [new_val] typed_fields[col_idx:col_idx + 1] = [new_val] else: fields.append(new_val) typed_fields.append(new_val) else: fields = [to_str(field) for field in fields] out.write('\t'.join(fields) + '\n') lines_computed += 1 valid_lines = total_lines - skipped_lines if valid_lines > 0: print( 'Computed new column values for %4.2f%% of %d lines written.' % (100.0 * lines_computed / valid_lines, valid_lines) ) elif args.fail_on_non_existent_columns: # Warn the user that there could be an issue with an expression. print( 'Could not compute a new column for any input row! ' 'Please check your expression(s) "%s" for problems.' % actions ) else: # Same, but the problem could also be a reference to a non-existent # column. print( 'Could not compute a new column for any input row! ' 'Please check your expression(s) "%s" for references to non-existent ' 'columns or other problems.' % actions ) if skipped_lines > 0: print('Skipped %d invalid lines starting at line #%d: "%s"' % (skipped_lines, first_invalid_line, invalid_line)) if lines_computed < valid_lines: print( 'Rewrote %d lines unmodified because computation of a new value failed' % (valid_lines - lines_computed) )